Template:Kyoto/Notebook/DMS

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(Difference between revisions)

Revision as of 07:58, 30 September 2014

2/10

Restriction Enzyme Digestion

Yasuda

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
J23100	5.7	-	-	0.5	0.5	10xBuffer(K)	3	-	20.3	30
RBS-GFP-DT	7.5	-	0.5	-	0.5	10xBuffer(M)	3	3	15.5	30

Electrophoresis/Gel Extraction

Yasuda

Lane	Sample
1	1kbp Kabber(2µL)
2	J23100 DNA control
3	J23100 S,P experimental
4	J23100 S,P experimental

Restriction Enzyme Digestion

Yasuda

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
J23100	10	-	-	0.5	0.5	10xBuffer(K)	3	-	16	30

2/12

Electrophoresis/Gel Extraction

Yasuda

Lane	Sample
1	1kbp Kabber(2µL)
2	J23100 DNA control
3	J23100 S,P experimental
4	J23100 S,P experimental

Sample	Concentration/(µg/mL)	260/280	260/230
GFP	16.7	1.46	0.64
Pcon	17.2	1.69	0.26

Ligation

Inoue

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
2/10 J23100 S,P 2100bp	5.8	2/10 RBS-GFP-DT 898bp	4.9	2x Buffer	5	T4 Ligase	3	-	10

Transformation

Yasuda

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
2/12 J23118(A) Pcon	1	Self-Making Competent Cells (DH5α)	10	11	SOC
2/12 I712074 (Ak) T7	1	Self-Making Competent Cells (DH5α)	10	11	SOC
2/12 Ligation Pcon+RBS-GFP-PT	1	Self-Making Competent Cells (DH5α)	10	11	SOC

2/13

Colony PCR

Yasuda,Murakami

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
30	1.2	1.2	27.6	60

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	72sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	Pcon-RBS-GFP-DT (1)
2	Pcon-RBS-GFP-DT (2)
3	Pcon-RBS-GFP-DT (3)
4	Pcon-RBS-GFP-DT (4)
5	2/12 I712074(Ak) T7

Electrophoresis

Honda

Lane	Sample
1	1kbp ladder
2	2/12 Pcon-RBS-GFP-DT (1)
3	2/12 Pcon-RBS-GFP-DT (2)
4	2/12 Pcon-RBS-GFP-DT (3)
5	2/12 Pcon-RBS-GFP-DT (4)
6	2/12 I712074(Ak) T7

Liquid Culture

No Name

Sample	Medium
Pcon-RBS-GFP-DT	Amp

2/14

Miniprep

Murakami

Sample
2/13 Pcon-RBS-GFP-DT(1)
2/13 Pcon-RBS-GFP-DT(2)

2/23

Self-Making Competent Cells (DH5α)

Tatsui and Kojima

3/4

Restriction Enzyme Digestion

Kato, Murata and Shimazaki

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
9/8 J23100 2100bp	6	-	-	0.5	0.5	H	3	3	17	30
9/8 J23100 2100bp	0.3	-	-	-	-	H	1	1	7.7	10
9/28 RBS-GFP-DT	9.3	-	0.5	-	0.5	H	3	3	13.7	30
control	0.5	-	-	-	-	H	1	1	7.5	10

Electrophoresis

Kato, Murata and Shimazaki

Lane	Sample
1	1kbp ladder
2	9/8 G23100 S,P
3	9/8 G23100 control
4	9/28 RBS-GFP DT X,P
5	9/28 RBS-GFP DT control

Gel Extraction

Kato, Murata and Shimazaki

Lane	Sample
1	9/2 J23100 S,P
2	Blank
3	Blank
4	9/28 RBS-GFP-DT X,P
5	1kbp ladder

3/5

Ligation

Kato, Shimazaki and Murata

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
3/4 J23100 S,P 2100bp	4.8	3/4 RBS-GFP-DT X,P 900bp	9.2	Reaction Buffer	2	Ligase(Bio Lub)	1	3	20

Transformation

No Name

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
3/5 J23119	1	Self-Making Competent Cells (DH5α)	10	11	SOC
3/5 I712074	1	Self-Making Competent Cells (DH5α)	10	11	SOC
3/5 ligation Pcon RBS-GFP-DT	1	Self-Making Competent Cells (DH5α)	10	11	SOC

3/6

Colony PCR

Kato and Shimazaki

Quick Tag/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
65	2.6	2.6	59.8

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	3/5 J23119 (1)
2	3/5 J23119 (2)
3	3/5 J23119 (3)
4	3/5 J23119 (4)
5	3/5 J712074 (1)
6	3/5 J712074 (2)
7	3/5 J712074 (3)
8	3/5 J712074 (4)

Number	Sample
1	3/5 Pcon RBS-GFP-DT (1)
2	3/5 Pcon RBS-GFP-DT (2)
3	3/5 Pcon RBS-GFP-DT (3)
4	3/5 Pcon RBS-GFP-DT (4)

Electrophoresis

Murata

Lane	Sample
1	1kbp ladder
2	3/5 J23119 (1)
3	3/5 J23119 (2)
4	3/5 J23119 (3)
5	3/5 J23119 (4)
6	3/5 I712074 (1)
7	3/5 I712074 (2)
8	3/5 I712074 (3)
9	3/5 I712074 (4)
10	3/5 Pcon RBS-GFP-DT (1)
11	3/5 Pcon RBS-GFP-DT (2)
12	3/5 Pcon RBS-GFP-DT (3)
13	3/5 Pcon RBS-GFP-DT (4)
14	1kbp ladder

3/7

Miniprep

Murata

Sample
3/6 Pcon RBS-GFP-DT (1)
3/6 Pcon RBS-GFP-DT (2)

3/10

Transformation

Okazaki

Sample/(µL)	CompetentCells/(µL)	Medium
3/10 RBS-GFP	Self-Making Competent Cells (DH5α)	CP
RBS	Self-Making Competent Cells (DH5α)	Amp
DT	Self-Making Competent Cells (DH5α)	CP
3/10 T7	Self-Making Competent Cells (DH5α)	Amp

3/11

Colony PCR

Shimazaki

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
50	2	2	46	100

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	60sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	3/10 RBS (1)
2	3/10 RBS (2)
3	3/10 pSB1C3 (1)
4	3/10 pSB1C3 (2)
5	3/10 DT (1)
6	3/10 DT (2)
7	3/10 T7 (1)
8	3/10 T7 (2)
9	control

3/12

Electrophoresis

Shimazaki

Lane	Sample
1	3/10 RBS (1)
2	3/10 RBS (2)
3	3/10 pSB1C3 (1)
4	3/10 pSB1C3 (2)
5	3/10 DT (1)
6	3/10 DT (2)
7	3/10 T7 (1)
8	3/10 T7 (2)
9	control
10	1kbp ladder

Colony PCR

Shimazaki

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
50	2.0	2.0	46	100

Predenature	Denature	Annealing	Extension
97°C	94°C	55°C	68°C
5min	30sec	30sec	60sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	3/10 RBS 3
2	3/10 RBS 4
3	3/10 pSB1C3 4
4	3/10 pSB1C3 5
5	3/10 DT 4
6	3/10 DT 5
7	3/10 T7 3
8	3/10 T7 4
9	new QuickTaq control
10	old QuickTaq control

3/14

Electrophoresis

Kojima

Lane	Sample
1	1kbp ladder
2	3/10 RBS (1)
3	3/10 RBS (2)
4	3/10 pSB1C3 (1)
5	3/10 pSB1C3 (2)
6	3/10 DT (1)
7	3/10 DT (2)
8	3/10 T7 (1)
9	3/10 T7 (2)
10	old Quick Taq control (9)
11	new Quick Taq control (10)
12	1kbp ladder

Colony PCR

Kojima

Master Mix

Quick Tag/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
17.5	0.7	0.7	16.1(MilliQ)	35

Predenature	Denature	Annealing	Extension
97°C	95°C	58°C	68°C
5min	30sec	30sec	30sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	RBS-4
2	DT-5
3	control

Electrophoresis

Kojima

Lane	Sample
1	1kbp ladder
2	RBS-4
3	DT-5
4	control

Colony PCR

Yasuda and Shimazaki

Master Mix

Quick Tag/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
17.5	0.7	0.7	16.1(MilliQ)	35

Predenature	Denature	Annealing	Extension
97°C	95°C	58°C	68°C
5min	30sec	30sec	60sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	pSB1C3-3
2	T7-5
3	control

Electrophoresis

Shimazaki

Lane	Sample
1	1kbp ladder
2	pSB1C3-3
3	T7-5
4	control
4	2/10 MilliQ

3/17

Liquid Culture

Yoshida

Sample	Medium
3/10 pSB1C3-3	CP
3/10 DT-5	CP
3/10 T7-5	Amp
3/10 RBS-4	Amp

3/18

Miniprep

Murata and Yasuda

Sample	Concentration/(µg/mL)	260/280	260/230
3/17 DT CP	64.4	1.17	0.29
3/17 RBS Amp	61.4	1.28	0.36
3/17 T7 Amp	66.8	1.22	0.34
3/17 pSB1C3	64.2	1.31	0.39

Restriction Enzyme Digestion

Yoshida

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
pSB1C3 E,S 3/18 miniprep product	20	1	1	-	-	M	3	3	2	30
control	3	-	-	-	-	M	1	1	5	10

Cloning PCR

Murata and Yasuda

2K KAPA HiFi HotStart ReadyMix/(µL)	F dddD 66/(µL)	R dddD 65/(µL)	R.pomeroyi Genome/(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	3	8	25

Predenature	Denature	Annealing	Extension	Final Extension
95°C	98°C	65°C	72°C	72°C
3min	20sec	15sec	150sec	1sec

Denature-Annealing-Extension 25cycle

3/19

Restriction Enzyme Digestion

Yoshida

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
pSB1C3 3/18 miniprep product	20	1	-	1	-	H	3	-	5	30
control	3	-	-	-	-	H	1	-	6	10

Electrophoresis

Kojima

Lane	Sample
1	1kbp ladder
2	dddD PCR product

PCR

Kojima

3/19 DNA Purification product/(µL)	F/(µL)	R/(µL)	HiFi Mix/(µL)	MilliQ/(µL)	Total/(µL)
1	0.75	0.75	12.5	10	25

R.pomeroyi Genome/(µL)	F/(µL)	R/(µL)	HiFi Mix/(µL)	MilliQ/(µL)	Total/(µL)
3	0.75	0.75	12.5	8	25

Predenature	Denature	Annealing	Extension	Final Extension
95°C	98°C	68°C	72°C	72°C
5min	20sec	15sec	90sec	5min

Denature-Annealing-Extension 25cycle

3/20

Electrophoresis

Kojima

Lane	Sample
1	1kbp ladder
2	pSB1C3 E,S
3	control
4	dddD(1) 3/19 PCR product
5	dddD(2) 3/19 PCR product

Gel Extraction

Yasuda and Tatsui

Lane	Sample
2	1kbp ladder
3	pSB1C3
4	Blank
5	pSB1C3

Gel Extraction

Murara

Lane	Sample
1	1kbp ladder
2	dddD
3	dddD

Sample	Concentration/(µg/mL)	260/280	260/230
dddD	35	1.63	0.85

3/24

Restriction Enzyme Digestion

Honda

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
pSB1C3	11	0.5	0.5	-	-	M	1.5	1.5	-	15
dddD	12.5	0.5	-	0.5	-	M	1.5	-	-	15

PCR

Honda

2x KAPA HiFi HotStart ReadyMix/(µL)	F dddD 62/(µL)	R dddD 68/(µL)	Templete/(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	pick up	11	25

Predenature	Denature	Annealing	Extension	Final Extension	Cooling
95°C	98°C	68°C	72°C	72°C
5min	20sec	15sec	90sec	5min

Denature-Annealing-Extension 25cycle

Number	Sample
1	dddD

Sample	Concentration/(µg/mL)	260/280	260/230
dddD	63.7	1.77	1.88

Ligation

Honda

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
dddD	1.3	pSB1C3	0.43	2xBuffer	5	T4Ligase	1	2.27	10

Liquid Culture

Tatsui

Sample	Medium
pSB1C3(3)	CP
pSB1C3(4)	CP

3/25

Miniprep

Tatsui

Sample	Concentration/(µg/mL)
pSB1C3 3/24 (3)	41
pSB1C3 3/24 (4)	57

Restriction Enzyme Digestion

Murata

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
pSB1C3 3/24 (3)	15.4	0.5	-	0.5	-	H	3	-	10.6	30
pSB1C3 3/24 (4)	3.2	0.5	-	0.5	-	H	3	-	22.8	30

Gel Extraction

Murata

Lane	Sample
1	1kbp ladder
2	pSB1C3(3) E,S 3/25
3	Blank
4	Blank
5	Blank
6	dddD 3/25 E,S
7	dddD 3/25 E,S

Sample	Concentration/(µg/mL)	260/280	260/230
dddD	4.9	17.5	0.52
pSB1C3	2.0	-	0.21

3/26

Ligation

Yasuda

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	30	dddD	30	2x Rapid Ligation Buffer	5	T4Ligase	3	-	10

Transformation

Yasuda

Sample/(µL)
dddD(pSB1C3)

3/27

Restriction Enzyme Digestion

Murata

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
pSB1C3(4)3/25	20.1	0.5	-	0.5	-	10xBuffer	3	-	5.9	30
dddD 3/24 PCR product	3.2	0.5	-	0.5	-	10xBuffer	3	-	22.8	30

Gel Extraction

Honda

Lane	Sample
1	1kbp ladder
2	pSB1C3 E,S 3/27
3	pSB1C3 E,S 3/27
4	Blank
5	dddD E,S 3/27
6	dddD E,S 3/27

Sample	Concentration/(µg/mL)	260/280	260/230
pSB1C3	9	1.58	0.04
dddD	16.0	1.78	0.08

Ligation

Honda

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	11	dddD	15	2x Rapid Ligation Buffer	5	T4 DNA Ligase	1	4	10

3/28

PCR

Yasuda

2x KAPA HiFi HotStart ReadyMix/(µL)	F Sequence primer/(µL)	R Spe1-dddD/(µL)	Templete/(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	pick up	11	25

Predenature	Denature	Annealing	Extension	Final Extension	Cooling
95°C	98°C	68°C	72°C	72°C
5min	20sec	15sec	90sec	5min

Denature-Annealing-Extension 25cycle

Number	Sample
1	Sequence primer (1)
2	Sequence primer (2)
3	Sequence primer (3)
4	Sequence primer (4)
5	Sequence primer (5)
6	Sequence primer (6)
7	Sequence primer VF2
8	F pre-dddD PCR product 62
9	Blank

Electrophoresis

Murata

Lane	Sample
1	1kbp ladder
2	Seaquence primer (1) PCR product
3	Seaquence primer (2) PCR product
4	Seaquence primer (3) PCR product
5	Seaquence primer (4) PCR product
6	Seaquence primer (5) PCR product
7	Seaquence primer (6) PCR product
8	Seaquence primer VF2
9	F pre-dddD cloning
10	Blank
11	1kbp ladder

Transformation

Kojima

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
dddD	1	Self-Making Competent Cells (DH5α)	10	11	CP

3/30

Colony PCR

Yasuda

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

Predenature	Denature	Annealing	Extension
97°C	95°C	58°C	68°C
2min	30sec	30sec	168sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	3/26 dddD(pSB1C3) (1)
2	3/26 dddD(pSB1C3) (2)
3	3/26 dddD(pSB1C3) (3)
4	3/26 dddD(pSB1C3) (4)
5	3/26 dddD(pSB1C3) (5)
6	3/28 dddD(pSB1C3) (6)
7	3/28 dddD(pSB1C3) (7)
8	3/28 dddD(pSB1C3) (8)
9	3/28 dddD(pSB1C3) (9)
10	3/28 dddD(pSB1C3) (10)

3/31

Number	Sample
1	1kbp ladder
2	3/26 dddD(pSB1C3) (1)
3	3/26 dddD(pSB1C3) (2)
4	3/26 dddD(pSB1C3) (3)
5	3/26 dddD(pSB1C3) (4)
6	3/26 dddD(pSB1C3) (5)
7	1kbp ladder
8	3/28 dddD(pSB1C3) (6)
9	3/28 dddD(pSB1C3) (7)
10	3/28 dddD(pSB1C3) (8)
11	3/28 dddD(pSB1C3) (9)
12	3/28 dddD(pSB1C3) (10)
13	1kbp ladder

7/31

Restriction Enzyme Digestion

Nakamura and Matsumoto

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
3/24 dddD PCR product	3.2	1	-	1	-	H	3	-	21.8	30
pSB1C3	18.5	1	-	1	-	H	3	-	6.5	30
pSB1C3 control	6.2	-	-	-	-	H	1	-	2.8	10

8/1

Gel Extraction

Murata and Yasuda

Lane	Sample
1	1kbp ladder
2	3/24 dddD PCR product E,S
3	3/24 dddD PCR product E,S
4	Blank
5	pSB1C3 E,S
6	pSB1C3 E,S
7	Blank
8	1kbp ladder
9	3/24 dddD PCR product control
10	pSB1C3 control

Sample	Concentration/(µg/mL)	260/280	260/230
PSB1C3	13.3	1.90	-
dddD	10.8	1.64	0.15

Ligation

Yasuda

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
8/1 PSB1C3 gel extraction product 2047bp	1.5	8/1 dddD gel extraction product 2545bp	6.9	10xT4Ligase	2	T4Ligase	1	8.6	20

Transformation

Murata

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
PSB1C3-dddD	3	Self-Making Competent Cells (DH5α)	30	33	SOC

8/2

PCR Cloning

Murata

dddD without Pre-Suf	2x KAPA HiFi Hotstart Ready Mix/(µL)	F Pre-dddD PCR product 62/(µL)	Rv Spe1-dddD PCR product 68/(µL)	MilliQ/(µL)	Total/(µL)
pick up	12.5	0.75	0.75	11	25

Predenature	Denature	Annealing	Extension
95°C	98°C	65°C	72°C
5min	20sec	15sec	50sec

Denature-Annealing-Extension 25cycle

DNA Purification

Murata

8/2 Pre-dddD-Suf PCR product

Colony PCR

Honda,Nakamura and Matsumoto

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
15	0.6	0.6	13.8	30

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	pSB1C3-dddD(1)
2	pSB1C3-dddD(2)
3	pSB1C3-dddD(3)

Concentration Measurement

Nakamura and Matsumoto

Sample	Concentration/(µg/mL)	260/280	260/230
dddD PCR product	245	1.59	2.17

Restriction Enzyme Digestion

Nakamura and Matsumoto

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
8/2 dddD PCR product	8.2	1	-	1	-	H	3	-	16.8	30
8/2 dddD PCR product control	0.41	-	-	-	-	H	1	-	8.6	10
pSB1C3	12.7	1	-	1	-	H	3	-	12.3	30
pSB1C3 control	0.04	-	-	-	-	H	1	-	8.4	10

8/3

Electrophoresis

Murata

Lane	Sample
1	pSB1C3-dddD(1)
2	pSB1C3-dddD(2)
3	pSB1C3-dddD(3)
4	1kb ladder (3µL)
5	1kb ladder (1µL)

Gel Extraction

Tatsui

Lane	Sample
1	1kb ladder
2	Blank
3	pSB1C3 2070bp
4	Blank
5	pSB1C3
6	Blank
7	8/2 dddD PCR product 2544bp
8	Blank
9	8/2 dddD PCR product

Sample	Concentration/(µg/mL)	260/280	260/230
pSB1C3	12.5	1.37	0.42
dddD PCR product	35	1.54	0.85

8/4

Colony PCR

Honda

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
40	1.6	1.6	36.8	80

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

1	dddD+pSB1C3(1)-1
2	dddD+pSB1C3(1)-2
3	dddD+pSB1C3(2)-1
4	dddD+pSB1C3(2)-2
5	dddD+pSB1C3(2)-3
6	dddD+pSB1C3(2)-4
7	pSB1C3 control-1
8	control

Electrophoresis

Matsumoto

Lane	Sample
1	1kbp ladder
2	dddD+pSB1C3(1)-1
3	dddD+pSB1C3(1)-2
4	dddD+pSB1C3(2)-1
5	dddD+pSB1C3(2)-2
6	dddD+pSB1C3(2)-3
7	dddD+pSB1C3(2)-4
8	pSB1C3 control-1
9	control
10	1kbp ladder

PCR

Honda

Unexpected bands are confirmed in former Electrophoresis, so contamination of MilliQ or Quicktaq is suspected. For confirming contamination, PCR and Electrophoresis are conducted.

* suspicious samples for contamination

(1)

*Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

(2)

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

(3)

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	*MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

(4)

*Quick Taq/(µL)	VF2/(µL)	VR/(µL)	*MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Electrophoresis

Honda

Lane	Sample
1	1kbp ladder
2	(1)
3	(2)
4	(3)
5	(4)

8/18

PCR

Honda

For confirming contamination of VF2 and VR primers, we pour samples into new tubes and perform PCR and Electrophoresis.

(1)

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

control(2)

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	8/2 Pcon3/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	0.6	4.6	10

(3)

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	4.6	10

(4)

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	8/2 Pcon3/(µL)	MilliQ/(µL)	Total/(µL)
5	0.2	0.2	0.6	4.0	10

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Electrophoresis

Honda

Number	Sample
1	1kbp ladder
2	(1)
3	(2)
4	(3)
5	(4)

Restriction Enzyme Digestion

Honda

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
dddD 8/2 PCR product	5.5	0.7	-	0.7	-	H	2	-	11.1	20
dddD 8/2 PCR product control	0.41	-	-	-	-	H	1	-	8.6	10
pSB1C3	12.7	1	-	1	-	H	3	-	8.4	10
pSB1C3 control	0.64	-	-	-	-	H	1	-	8.4	10

Colony PCR

Honda

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
40	1.6	1.6	36.8	80

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	dddD+pSB1C3(1)-1
2	dddD+pSB1C3(1)-2
3	dddD+pSB1C3(2)-1
4	dddD+pSB1C3(2)-2
5	dddD+pSB1C3(2)-3
6	dddD+pSB1C3(2)-4
7	pSB1C3 control-1
8	control

Electrophoresis

Honda

Lane	Sample
1	1kbp ladder
2	dddD+pSB1C3(1)-1
3	dddD+pSB1C3(1)-2
4	dddD+pSB1C3(2)-1
5	dddD+pSB1C3(2)-2
6	dddD+pSB1C3(2)-3
7	dddD+pSB1C3(2)-4
8	pSB1C3 control-1
9	control

Gel Extraction

Murata

Lane	Sample
1	1kbp ladder
2	dddD control
3	dddD E,S
4	Blank
5	pSB1C3 control
6	pSB1C3 E,S

Sample	Concentration/(µg/mL)	260/280	260/230
105	1.30	0.85
dddD	105	1.27	0.73

8/19

Ligation

Honda,Li,Yamauchi

(1)

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	3.6	dddD	1	2xBuffer	5.6	T4Ligase	1	-	11.2

(2)

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	3.6	-	-	2xBuffer	5.6	T4Ligase	1	1	11.2

8/20

Transformation

Murata

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
8/19 Ligation (1)	11.2	Competent Cells (DH5α)	50	61.2	SOC
8/19 Ligation (2)	11.2	Competent Cells (DH5α)	50	61.2	SOC

Ligation

Nakamura,Honda

(1)

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	10.8	dddD	3	2xBuffer	16.8	T4Ligase	3	-	33.6

(2)

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	10.8	-	-	2xBuffer	16.8	T4Ligase	3	3	33.6

Transformation

Nakamura,Honda

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
dddD+pSB1C3	5	Competent Cells (DH5α)	20	25	SOC
control	5	Competent Cells (DH5α)	20	25	SOC

8/21

Colony PCR

Honda,Nakamura

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
35	1.4	1.4	32.2	70

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Electrophoresis

Nakamura

Number	Sample
1	8/20 dddD+pSB1C3(1)-1
2	8/20 dddD+pSB1C3(1)-2
3	8/20 dddD+pSB1C3(2)-1
4	8/20 dddD+pSB1C3(2)-2
5	8/20 dddD+pSB1C3(3)-1
6	8/20 dddD+pSB1C3(3)-2
7	control

Number	Sample
1	1kbp ladder
2	8/20 dddD+pSB1C3(1)-1
3	8/20 dddD+pSB1C3(1)-2
4	8/20 dddD+pSB1C3(2)-1
5	8/20 dddD+pSB1C3(2)-2
6	8/20 dddD+pSB1C3(3)-1
7	8/20 dddD+pSB1C3(3)-2
8	control

Gel Extraction

Yasuda

Lane	Sample
1	1kbp ladder
2	8/22 Mp(1) E,S
3	8/22 Mp(1) E,S
4	8/22 Mp(1) E,S

Lane	Sample
1	1kbp ladder
2	8/22 Mp(2) E,S
3	8/22 Mp(2) E,S
4	Blank
5	1kbp ladder
6	8/22 Mp(3) E,S
7	8/22 Mp(3) E,S

8/25

Gel Extraction

Yasuda

Lane	Sample
1	1kbp ladder
2	8/22 Mp(1) E,S
3	8/22 Mp(1) E,S
4	8/22 Mp(1) E,S

Ligation

Yasuda

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
8/22 Mp(1) E,S	1.3	8/18 dddD gel extraction product	0.81	2x Buffer	5	T4 Ligase	0.3	2.69	10
8/22 Mp(2) E+S	0.95	8/18 dddD gel extraction product	0.71	2x Buffer	5	T4 Ligase	0.3	3.04	10
8/22 Mp(3) E+S	0.69	8/18 dddD gel extraction product	0.71	2x Buffer	5	T4Ligase	0.3	3.3	10

8/26

Transformation

Nakamura,Matsumoto

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
8/25 Ligation (1)	10	Competent Cells (DH5α)	50	60	SOC
8/25 Ligation(2)	10	Competent Cells (DH5α)	50	60	SOC
8/25 Ligation(3)	10	Competent Cells (DH5α)	30	40	SOC

8/27

Colony PCR

Murata

Master Mix

Quick Taq/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
80	3.2	3.2	73.6	160

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	2h20min

Denature-Annealing-Extension 30cycle

Number	Sample
1	8/26 dddD+pSB1C3(1)-1
2	8/26 dddD+pSB1C3(1)-2
3	8/26 dddD+pSB1C3(1)-3
4	8/26 dddD+pSB1C3(1)-4
5	8/26 dddD+pSB1C3(1)-5
6	8/26 dddD+pSB1C3(2)-1
7	8/26 dddD+pSB1C3(2)-2
8	8/26 dddD+pSB1C3(2)-3
9	8/26 dddD+pSB1C3(2)-4
10	8/26 dddD+pSB1C3(2)-5
11	8/26 dddD+pSB1C3(3)-1
12	8/26 dddD+pSB1C3(3)-2
13	8/26 dddD+pSB1C3(3)-3
14	8/26 dddD+pSB1C3(3)-4
15	8/26 dddD+pSB1C3(3)-5
16	control

Electrophoresis

Yasuda

Lane	Sample
1	1kbp ladder
2	8/26 dddD+pSB1C3(1)-1
3	8/26 dddD+pSB1C3(1)-2
4	8/26 dddD+pSB1C3(1)-3
5	8/26 dddD+pSB1C3(1)-4
6	8/26 dddD+pSB1C3(1)-5

Lane	Sample
1	1kbp ladder
2	8/26 dddD+pSB1C3(2)-1
3	8/26 dddD+pSB1C3(2)-2
4	8/26 dddD+pSB1C3(2)-3
5	8/26 dddD+pSB1C3(2)-4
6	8/26 dddD+pSB1C3(2)-5
7	1kbp ladder
8	8/26 dddD+pSB1C3(3)-1
9	8/26 dddD+pSB1C3(3)-2
10	8/26 dddD+pSB1C3(3)-3
11	8/26 dddD+pSB1C3(3)-4
12	8/26 dddD+pSB1C3(3)-5
13	1kbp ladder
14	control

8/29

PCR

Matsumoto

Master Mix

2x KARA HiFi HotStart ReadyMix /(µL)	V Pre-dddD 62/(µL)	Rv Spe1-dddD 68/(µL)	MilliQ/(µL)	DNA Purification dddD without Pre-Suf	Total/(µL)
12.5	0.75	0.75	11	pick up	25

Predenature	Denature	Annealing	Extension
95°C	98°C	65°C	72°C
5min	20sec	15sec	50sec

Denature-Annealing-Extension 25cycle

DNA Purification

Matsumoto

Sample	Concentration/(µg/mL)	260/280	260/230
8/29 Pre-dddD-Suf PCR product	335	1.73	1.91

Restriction Enzyme Digestion

Matsumoto

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
8/29 Pre-dddD-Suf PCR product	6.0	1	-	1	-	H	3	-	19	30

DNA Purification

Matsumoto

Sample	Concentration/(µg/mL)	260/280	260/230
8/29 Pre-dddD-Suf Restriction Enzyme Digestion product	60	1.64	0.94

Ligation

Matsumoto

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3 E,S gel extraction product	4.7	dddD-pSB1C3	4	2x Buffer	9.7	T4 Ligase	1	-	19.4
pSB1C3 E,S gel extraction product	4.7	-	-	2x Buffer	9.7	T4 Ligase	1	4	19.4

Transformation

Matsumoto

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
dddD 8/29 ligation product	10	DH5a	40	50	SOC
8/29 ligation product control	10	DH5a	40	50	SOC
pSB1C3 control	1	DH5a	20	21	SOC

9/1

Colony PCR

Honda

Master Mix

Quick Tag/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
30	1.2	1.2	27.6	60

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	pSB1C3-dddD(1)
2	pSB1C3-dddD(2)
3	pSB1C3-dddD(3)
4	pSB4A5-(1)
5	pSB4A5-(2)
6	control

Electrophoresis

Matsumoto

Lane	Sample
1	1kb ladder
2	9/1 dddD+pSB1C3-1
3	9/1 dddD+pSB1C3-2
4	9/1 dddD+pSB1C3-3
5	9/1 pSB4A5-1
6	9/1 pSB4A5-2
7	control
8	1kb ladder

Colony PCR

Matsumoto

Master Mix

Quick Tag/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
30	1.2	1.2	27.6	60

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	pSB1C3-dddD(1)
2	pSB1C3-dddD(2)
3	pSB1C3-dddD(3)
4	pSB4A5-(1)
5	pSB4A5-(2)
6	control

Electrophoresis

Matsumoto

Lane	Sample
1	1kb ladder
2	9/1 dddD+pSB1C3-1
3	9/1 dddD+pSB1C3-2
4	9/1 dddD+pSB1C3-3
5	9/1 pSB4A5-1
6	9/1 pSB4A5-2
7	control
8	1kb ladder

9/2

Electrophoresis

Mastumoto

Lane	Sample
1	1kb ladder
2	8/29 dddD(DNA purification product)1µL+MilliQ 5µL+looding dye(x6)1µL
3	control

Cloning

Yasuda

2x KAPA HiFi HotStart ReadyMix/(µL) Fw REDOX cloning primer 59/(µL) Rv REDOX primer Ver.2 64/(µL) DNA CCAP 1023/1 /(µL) MilliQ/(µL) Total/(µL)

12.5 0.75 0.75 1 10 25

Predenature Denature Annealing Extension Final Extention Cooling

95°C 98°C 65°C 72°C 72°C 4°C

5min 20sec 15sec 2min10sec 5min long time

Denature-Annealing-Extension 25cycle

Restriction Enzyme Digestion

Matsumoto

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
8/29 dddD(DNA purification product)	6	1	-	1	-	-	3	-	19	30

Cloning

Yasuda
Master Mix(x4)

2x KAPA HiFi HotStart ReadyMix/(µL) Fw primer 59/(µL) Rv primer Ver.2 64/(µL) 3/19 dddD(DNA purification) /(µL) MilliQ/(µL) Total/(µL)

12.5 0.75 0.75 0.1 11 25

Predenature Denature Annealing Extension final Extention Cooling

95°C 98°C 65°C 72°C 72°C 4°C

5min 20sec 15sec 2min10sec 5min long time

Denature-Annealing-Extension 25cycle

9/3

Gel Extraction

Yamauchi

Lane	Sample
2	dddD (E,S) 2544bp.
4	dddD (E,S)
6	1kb ladder

DNA Purification

Matsumoto

Sample	Concentration/(µg/mL)	260/280	260/230
Pre-dddD-suf	685	1.66	2.13

Ligation

Honda, Li and Yamauchi
(1)insert: dddD

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	1.5	dddD	6.3	2x Buffer	8.8	T4 Ligase	1	-	17.6

(2)control

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	1.5	dddD	-	2x Buffer	8.8	T4 Ligase	1	6.3	17.6

Transformation

Yamauchi

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
9/3 Ligation product (dddD)	3	DH5α	15	18	SOC
9/3 Ligation product (control)	2	DH5α	10	12	SOC

30min on ice
1min heat shock
2min on ice

(1)Adding SOC medium(4 times) to each of them and doing preculture at 37°C for 1 hour.
(2)Adding SOC medium to each of them, up to 100µL

9/4

Electrophoresis

Honda

Lane	Sample
1	1kb ladder
2	9/3 Ligation dddD + pSB1C3
3	8/20 Ligation dddD + pSB1C3
4	8/1 Ligation dddD + pSB1C3
5	9/3 dddD (Gel extraction product)(E,S)
6	9/3 dddD (DNA purification product)
7	1kb ladder

Cloning

Murata and Honda
(1)

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw primer AT cloning primer 61/(µL)	Rv primer AT cloning primer 61/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	1	10	25

(2)

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw SAMmt cloning primer 58/(µL)	Rv SAMmt cloning primer 57/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	1	10	25

(3)

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw DECARB cloning primer 56/(µL)	Rv DECARB cloning primer 56/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	1	10	25

(4)

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw DiDECARB cloning primer 57/(µL)	Rv DiDECARB cloning primer 57/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	1	10	25

(1)(4)

Predenature	Denature	Annealing	Extension	final Extention	Cooling
98°C	98°C	60°C	72°C	72°C	4°C
5min	20sec	15sec	90sec	5min	long time

Denature-Annealing-Extension 25cycle

(2)(3)

Predenature	Denature	Annealing	Extension	final Extention	Cooling
98°C	98°C	60°C	72°C	72°C	4°C
5min	20sec	15sec	70sec	5min	long time

Denature-Annealing-Extension 25cycle

Electrophoresis

Honda

Lane	Sample
1	1kb ladder
2	AT cloning(1)
3	SAMmt cloning(2)
4	DECARB cloning(3)
5	DiDECARB cloning(4)
6	1kb ladder

Restriction Enzyme Digestion

Yasuda
(1)

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
I732095 8/22 miniprep (2)(255ng/µL)	7.8	1	-	1	-	3	-	17.2	30
I732095 8/22 miniprep (2)(255ng/µL)	0.4	-	-	-	-	1	-	8.6	10

incubate at 37°C overnight
(2)

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)
I732095 8/22 miniprep (2)(255ng/µL)	7.8	1	-	1	-	3	-	17.2	30
I732095 8/22 miniprep (2)(255ng/µL)	0.4	-	-	-	-	1	-	8.6	10
I732095 8/22 miniprep (1)(430ng/µL)	4.6	1	-	1	-	3	-	20.4	30

9/5

Gel Extraction

Honda and Yamauchi

Lane	Sample
1	1kb ladder
2	9/4 I732095(E,S)-1
3	-
4	9/4 I732095(E,S)-1
5	-
6	9/4 I732095(E,S)-1

ゲノムクローニング@

Honda

Electrophoresis

Honda (1)AT

Lane	Sample
1	-
2	-
3	-
4	1kb ladder
5
6
7
8
9
10
11
12
13	1kb ladder
14	-
15	-
16	-
17	-

<
(2)SAMmt

Lane	Sample
1	-
2	-
3	-
4	1kb ladder
5
6
7
8
9
10
11	-
12	-
13	-
14	-
15	-
16	-
17	1kb ladder

<
(3)DiDECARB

Lane	Sample
1	-
2	-
3	-
4	1kb ladder
5
6
7
8
9
10
11
12
13	1kb ladder
14	-
15	-
16	-
17	-

9/8

ゲノムクローニング@

Honda and Yamaura

PCR@

Honda and Yamaura

Electrophoresis

Honda

Lane	Sample
1	1kb ladder
2	PCR product (AT)
3	PCR product (DIDECARB)
4	PCR product (dddD)
5	PCR product (dddD)
6	1kb ladder

カラム精製

Matsumoto

Restriction Enzyme Digestion

Matsumoto

Sample/(µL)		EcoR1/(µL)	Xba1/(µL)	Spe1/(µL)	Pst1/(µL)	Buffer/(µL)		BSA/(µL)	MilliQ/(µL)	Total/(µL)
サンプル名	(サンプル)	(E)	(X)	(S)	(P)	(HorM)	(Buffer)	(BSA)	(MilliQ)	30
control	(サンプル)	(E)	(X)	(S)	(P)	(HorM)	(Buffer)	(BSA)	(MilliQ)	10

PCR

Yasuda

パーツ起こし

Honda

9/9

カラム精製

Honda

Ligation

Li (1)Sample (2)Control

Vector/(µL)		Insert/(µL)		Buffer/(µL)		Ligase/(µL)		MilliQ/(µL)	Total/(µL)
pSB1C3	4.2	dddD	3.8	9	T4 Ligase	1	-	18
pSB1C3	4.2	-	-	9	T4 Ligase	1	3.8	18

Transformation

Li

Sample/(µL)		CompetentCells/(µL)		Total/(µL)	Medium
9/9 dddD+pSB1C3 ligation product	5	DH5α	50	55	SOC
9/9 dddD+pSB1C3 ligation product control	3	DH5α	30	33	SOC

Liquid Culture

Honda

Sample	Medium
サンプル名	培地

PCR Cloning

Murata

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw REDOX cloning primer 59/(µL)	Rv REDOX primer Ver.2 64/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	1	10	25

Predenature	Denature	Annealing	Extension
95°C	98°C	64°C	72°C	72°C	12°C
5min	20sec	15sec	50sec	5min	long time

Denature-Annealing-Extension 25cycle

Gel Extraction

Murata

Lane	Sample
1	1kb ladder
2	9/8 SAMmt PCR product (5µL)
3	-
4	9/8 SAMmt PCR product (10µL)
5	9/8 SAMmt PCR product (10µL)
6	-

PCR@

Murata

9/10

Electrophoresis

Murata

Lane	Sample
1	-
2	-
3	1kb ladder (5µL)
4	9/9 REDOX PCR product (2µL)
5	9/9 SAMmt PCR product (2µL)
6	1kb ladder (5µL)
7	-
8	-

Miniprep/DNA Purification

Murata

Sample	Concentration/(µg/mL)	260/280	260/230
T7-RBS	290	1.90	1.83

Cloning PCR

Murata

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw REDOX cloning primer 59/(µL)	Rv REDOX primer Ver.2 64/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	1	10	25

Electrophoresis

Murata

Lane	Sample
1	-
2	-
3	-
4	1kb ladder
5	SAMmt (x50) (10µL)
6	-
7	-
8	-

Colony PCR

Honda

Master Mix

Quick Tag/(µL)	VF2/(µL)	VR/(µL)	MilliQ/(µL)	Total/(µL)
40	1.6	1.6	36.8	80

Predenature	Denature	Annealing	Extension
94°C	94°C	55°C	68°C
2min	30sec	30sec	24sec

Denature-Annealing-Extension 30cycle

Number	Sample
1	pSB1C3-dddD(1)
2	pSB1C3-dddD(2)
3	pSB1C3-dddD(3)
4	pSB1C3-dddD(4)
5	pSB1C3-dddD(5)
6	pSB1C3-dddD(6)
7	pSB1C3-dddD (control)
8	control

Electrophoresis

Honda

Lane	Sample
1	-
2	-
3	-
4	1kb ladder
5	9/9 dddD+psb1c3 (1)
6	9/9 dddD+psb1c3 (2)
7	9/9 dddD+psb1c3 (3)
8	9/9 dddD+psb1c3 (4)
9	1kb ladder
10	9/9 dddD+psb1c3 (5)
11	9/9 dddD+psb1c3 (6)
12	9/9 dddD+psb1c3 (control)
13	control
14	1kb ladder
15	-
16	-
17	-

Electrophoresis

Yasuda

Lane	Sample
1	-
2	-
3	1kb ladder
4	REDOX PCR product
5	-

Overlap Extention(OE)-PCR

Murata

10x Buffer for KOD-Plus-Ver.2	2mM dNTPs	25mM MgSO4	Primer(10µM each) #1	Template DNA #2	KOD-Plus-(1U/µL)	MilliQ	Total
5µL	5µL	3µL	1.5µL	1µL	1µL	33µL	50µL

(1)
#1: AT OE-A, AT OE-B
#2: 9/8 AT (DNA Purification Product)(55µg/mL)
(2)
#1: AT OE-C, AT OE-D
#2: 9/8 AT (DNA Purification Product)(55µg/mL)
(3)
#1: AT OE-2C, AT OE-D
#2: 9/8 AT (DNA Purification Product)(55µg/mL)
(4)
#1: SAMmt OE-A, SAMmt OE-B
#2: 9/9 SAMmt (Gel Extraction Product)(55µg/mL)
(5)
#1: SAMmt OE-C, AT OE-D
#2: 9/9 SAMmt (Gel Extraction Product)(55µg/mL)
(6)
#1: DECARB OE-A, DECARB OE-B<
#2: 9/4 DECARB Cloning-4 (55µg/mL)
(7)
#1: DECARB OE-C, DECARB OE-D
#2: 9/4 DECARB Cloning-4 (55µg/mL)
(8)
#1: DiDECARB OE-A, DiDECARB OE-B
#2: 9/9 DiDECARB (DNA Purification Product) (55µg/mL)
(9)
#1: DiDECARB OE-C, DiDECARB OE-D
#2: 9/9 DiDECARB (DNA Purification Product) (55µg/mL)
(10)
#1: AT OE-C, AT OE-2B
#2: 9/8 AT (DNA Purification Product)(55µg/mL)

Genome Cloning

Yasuda

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw REDOX cloning primer 59/(µL)	Rv REDOX primer Ver.2 64/(µL)	DNA CCAP 1023/1 /(µL)	MilliQ/(µL)	Total/(µL)
50	3	3	4	40	100

Number	AnnealingTemperature
1	65.0 °C
2	64.3 °C
3	63.0 °C
4	61.1 °C
5	58.8 °C
6	56.9 °C
7	55.7 °C
8	55.0 °C

@@ Line 2: / Line 2: @@
     <div id="kyoto-notebook">
 <!-- 警告：ここより上を消したら怒る -->
+<!--ここから春実験-->
+<div>
+	<a name="0210" class="kyoto-jump"></a>
+	<h3>2/10</h3>
+		<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>J23100</td>
+					<td>5.7</td>
+					<td>-</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>0.5</td>
+					<td>10xBuffer(K)</td>
+					<td>3</td>
+					<td>-</td>
+					<td>20.3</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>RBS-GFP-DT</td>
+					<td>7.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>10xBuffer(M)</td>
+					<td>3</td>
+					<td>3</td>
+					<td>15.5</td>
+					<td>30</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis/Gel Extraction</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp Kabber(2&micro;L)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>J23100 DNA control</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>J23100 S,P experimental</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>J23100 S,P experimental</td>
+				</tr>
+			</table>
+		<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>J23100</td>
+					<td>10</td>
+					<td>-</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>0.5</td>
+					<td>10xBuffer(K)</td>
+					<td>3</td>
+					<td>-</td>
+					<td>16</td>
+					<td>30</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0212" class="kyoto-jump"></a>
+	<h3>2/12</h3>
+		<h4>Electrophoresis/Gel Extraction</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp Kabber(2&micro;L)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>J23100 DNA control</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>J23100 S,P experimental</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>J23100 S,P experimental</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+					<th>260/280</th>
+					<th>260/230</th>
+				</tr>
+				<tr>
+					<td>GFP</td>
+					<td>16.7</td>
+					<td>1.46</td>
+					<td>0.64</td>
+				</tr>
+				<tr>
+					<td>Pcon</td>
+					<td>17.2</td>
+					<td>1.69</td>
+					<td>0.26</td>
+				</tr>
+			</table>
+		<h4>Ligation</h4>
+			<span class="kyoto-author">Inoue</span>
+			<table>
+				<tr>
+					<th colspan=2>Vector/(&micro;L)</th>
+					<th colspan=2>Insert/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th colspan=2>Ligase/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</tr>
+				<tr>
+					<td>2/10 J23100 S,P 2100bp</td>
+					<td>5.8</td>
+					<td>2/10 RBS-GFP-DT 898bp</td>
+					<td>4.9</td>
+					<td>2x Buffer</td>
+					<td>5</td>
+					<td>T4 Ligase</td>
+					<td>3</td>
+					<td>-</td>
+					<td>10</td>
+				</tr>
+			</table>
+		<h4>Transformation</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th colspan=2>CompetentCells/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>2/12 J23118(A) Pcon</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>SOC</td>
+				</tr>
+				<tr>
+					<td>2/12 I712074 (Ak) T7</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>SOC</td>
+				</tr>
+				<tr>
+					<td>2/12 Ligation Pcon+RBS-GFP-PT</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>SOC</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0213" class="kyoto-jump"></a>
+	<h3>2/13</h3>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Yasuda,Murakami</span>
+			<table>
+				<tr>
+					<th>Quick Taq/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>30</td>
+					<td>1.2</td>
+					<td>1.2</td>
+					<td>27.6</td>
+					<td>60</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>94&deg;C</td>
+					<td>94&deg;C</td>
+					<td>55&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>2min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>72sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>Pcon-RBS-GFP-DT (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>Pcon-RBS-GFP-DT (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>Pcon-RBS-GFP-DT (3)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>Pcon-RBS-GFP-DT (4)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>2/12 I712074(Ak) T7</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Honda</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>2/12 Pcon-RBS-GFP-DT (1)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>2/12 Pcon-RBS-GFP-DT (2)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>2/12 Pcon-RBS-GFP-DT (3)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>2/12 Pcon-RBS-GFP-DT (4)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>2/12 I712074(Ak) T7</td>
+				</tr>
+			</table>
+		<h4>Liquid Culture</h4>
+			<span class="kyoto-author">No Name</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>Pcon-RBS-GFP-DT</td>
+					<td>Amp</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0214" class="kyoto-jump"></a>
+	<h3>2/14</h3>
+		<h4>Miniprep</h4>
+			<span class="kyoto-author">Murakami</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>2/13 Pcon-RBS-GFP-DT(1)</td>
+				</tr>
+				<tr>
+					<td>2/13 Pcon-RBS-GFP-DT(2)</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0223" class="kyoto-jump"></a>
+	<h3>2/23</h3>
+		<h4>Self-Making Competent Cells (DH5&#945;)</h4>
+			<span class="kyoto-author">Tatsui and Kojima</span>
+</div>
+<div>
+	<a name="0304" class="kyoto-jump"></a>
+	<h3>3/4</h3>
+			<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Kato, Murata and Shimazaki</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>9/8 J23100 2100bp</td>
+					<td>6</td>
+					<td>-</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>0.5</td>
+					<td>H</td>
+					<td>3</td>
+					<td>3</td>
+					<td>17</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>9/8 J23100 2100bp</td>
+					<td>0.3</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>H</td>
+					<td>1</td>
+					<td>1</td>
+					<td>7.7</td>
+					<td>10</td>
+				</tr>
+				<tr>
+					<td>9/28 RBS-GFP-DT</td>
+					<td>9.3</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>H</td>
+					<td>3</td>
+					<td>3</td>
+					<td>13.7</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>control</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>H</td>
+					<td>1</td>
+					<td>1</td>
+					<td>7.5</td>
+					<td>10</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Kato, Murata and Shimazaki</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>9/8 G23100 S,P</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>9/8 G23100 control</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>9/28 RBS-GFP DT X,P</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>9/28 RBS-GFP DT control</td>
+				</tr>
+			</table>
+		<h4>Gel Extraction</h4>
+			<span class="kyoto-author">Kato, Murata and Shimazaki</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>9/2 J23100 S,P</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>9/28 RBS-GFP-DT X,P</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>1kbp ladder</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0305" class="kyoto-jump"></a>
+	<h3>3/5</h3>
+		<h4>Ligation</h4>
+			<span class="kyoto-author">Kato, Shimazaki and Murata</span>
+			<table>
+				<tr>
+					<th colspan=2>Vector/(&micro;L)</th>
+					<th colspan=2>Insert/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th colspan=2>Ligase/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</tr>
+				<tr>
+					<td>3/4 J23100 S,P 2100bp</td>
+					<td>4.8</td>
+					<td>3/4 RBS-GFP-DT X,P 900bp</td>
+					<td>9.2</td>
+					<td>Reaction Buffer</td>
+					<td>2</td>
+					<td>Ligase(Bio Lub)</td>
+					<td>1</td>
+					<td>3</td>
+					<td>20</td>
+				</tr>
+			</table>
+		<h4>Transformation</h4>
+			<span class="kyoto-author">No Name</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th colspan=2>CompetentCells/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>3/5 J23119</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>SOC</td>
+				</tr>
+				<tr>
+					<td>3/5 I712074</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>SOC</td>
+				</tr>
+				<tr>
+					<td>3/5 ligation Pcon RBS-GFP-DT</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>SOC</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0306" class="kyoto-jump"></a>
+	<h3>3/6</h3>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Kato and Shimazaki</span>
+			<table>
+				<tr>
+					<th>Quick Tag/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>65</td>
+					<td>2.6</td>
+					<td>2.6</td>
+					<td>59.8</td>
+					<td130</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>94&deg;C</td>
+					<td>94&deg;C</td>
+					<td>55&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>2min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>24sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>3/5 J23119 (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/5 J23119 (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/5 J23119 (3)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/5 J23119 (4)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/5 J712074 (1)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/5 J712074 (2)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/5 J712074 (3)</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/5 J712074 (4)</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>3/5 Pcon RBS-GFP-DT (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/5 Pcon RBS-GFP-DT (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/5 Pcon RBS-GFP-DT (3)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/5 Pcon RBS-GFP-DT (4)</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Murata</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/5 J23119 (1)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/5 J23119 (2)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/5 J23119 (3)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/5 J23119 (4)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/5 I712074 (1)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/5 I712074 (2)</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/5 I712074 (3)</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>3/5 I712074 (4)</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>3/5 Pcon RBS-GFP-DT (1)</td>
+				</tr>
+				<tr>
+					<td>11</td>
+					<td>3/5 Pcon RBS-GFP-DT (2)</td>
+				</tr>
+				<tr>
+					<td>12</td>
+					<td>3/5 Pcon RBS-GFP-DT (3)</td>
+				</tr>
+				<tr>
+					<td>13</td>
+					<td>3/5 Pcon RBS-GFP-DT (4)</td>
+				</tr>
+				<tr>
+					<td>14</td>
+					<td>1kbp ladder</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0307" class="kyoto-jump"></a>
+	<h3>3/7</h3>
+		<h4>Miniprep</h4>
+			<span class="kyoto-author">Murata</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>3/6 Pcon RBS-GFP-DT (1)</td>
+				</tr>
+				<tr>
+					<td>3/6 Pcon RBS-GFP-DT (2)</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0310" class="kyoto-jump"></a>
+	<h3>3/10</h3>
+		<h4>Transformation</h4>
+			<span class="kyoto-author">Okazaki</span>
+			<table>
+				<tr>
+					<th>Sample/(&micro;L)</th>
+					<th>CompetentCells/(&micro;L)</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>3/10 RBS-GFP</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>CP</td>
+				</tr>
+				<tr>
+					<td>RBS</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>Amp</td>
+				</tr>
+				<tr>
+					<td>DT</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>CP</td>
+				</tr>
+				<tr>
+					<td>3/10 T7</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>Amp</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0311" class="kyoto-jump"></a>
+	<h3>3/11</h3>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Shimazaki</span>
+			<p>Master Mix</p>
+			<table>
+				<tr>
+					<th>Quick Taq/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>50</td>
+					<td>2</td>
+					<td>2</td>
+					<td>46</td>
+					<td>100</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>94&deg;C</td>
+					<td>94&deg;C</td>
+					<td>55&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>2min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>60sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>3/10 RBS (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/10 RBS (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/10 pSB1C3 (1)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/10 pSB1C3 (2)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/10 DT (1)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/10 DT (2)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/10 T7 (1)</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/10 T7 (2)</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>control</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0312" class="kyoto-jump"></a>
+	<h3>3/12</h3>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Shimazaki</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>3/10 RBS (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/10 RBS (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/10 pSB1C3 (1)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/10 pSB1C3 (2)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/10 DT (1)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/10 DT (2)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/10 T7 (1)</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/10 T7 (2)</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>control</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>1kbp ladder</td>
+				</tr>
+			</table>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Shimazaki</span>
+			<p>Master Mix</p>
+			<table>
+				<tr>
+					<th>Quick Taq/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>50</td>
+					<td>2.0</td>
+					<td>2.0</td>
+					<td>46</td>
+					<td>100</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>97&deg;C</td>
+					<td>94&deg;C</td>
+					<td>55&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>5min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>60sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>3/10 RBS 3</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/10 RBS 4</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/10 pSB1C3 4</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/10 pSB1C3 5</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/10 DT 4</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/10 DT 5</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/10 T7 3</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/10 T7 4</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>new QuickTaq control</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>old QuickTaq control</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0314" class="kyoto-jump"></a>
+	<h3>3/14</h3>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Kojima</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/10 RBS (1)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/10 RBS (2)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/10 pSB1C3 (1)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/10 pSB1C3 (2)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/10 DT (1)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/10 DT (2)</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/10 T7 (1)</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>3/10 T7 (2)</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>old Quick Taq control (9)</td>
+				</tr>
+				<tr>
+					<td>11</td>
+					<td>new Quick Taq control (10)</td>
+				</tr>
+				<tr>
+					<td>12</td>
+					<td>1kbp ladder</td>
+				</tr>
+			</table>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Kojima</span>
+			<p>Master Mix</p>
+			<table>
+				<tr>
+					<th>Quick Tag/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>17.5</td>
+					<td>0.7</td>
+					<td>0.7</td>
+					<td>16.1(MilliQ)</td>
+					<td>35</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>97&deg;C</td>
+					<td>95&deg;C</td>
+					<td>58&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>5min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>30sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>RBS-4</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>DT-5</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>control</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Kojima</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>RBS-4</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>DT-5</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>control</td>
+				</tr>
+			</table>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Yasuda and Shimazaki</span>
+			<p>Master Mix</p>
+			<table>
+				<tr>
+					<th>Quick Tag/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>17.5</td>
+					<td>0.7</td>
+					<td>0.7</td>
+					<td>16.1(MilliQ)</td>
+					<td>35</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>97&deg;C</td>
+					<td>95&deg;C</td>
+					<td>58&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>5min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>60sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>pSB1C3-3</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>T7-5</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>control</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Shimazaki</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>pSB1C3-3</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>T7-5</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>control</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>2/10 MilliQ</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0317" class="kyoto-jump"></a>
+	<h3>3/17</h3>
+		<h4>Liquid Culture</h4>
+			<span class="kyoto-author">Yoshida</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>3/10 pSB1C3-3</td>
+					<td>CP</td>
+				</tr>
+				<tr>
+					<td>3/10 DT-5</td>
+					<td>CP</td>
+				</tr>
+				<tr>
+					<td>3/10 T7-5</td>
+					<td>Amp</td>
+				</tr>
+				<tr>
+					<td>3/10 RBS-4</td>
+					<td>Amp</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0318" class="kyoto-jump"></a>
+	<h3>3/18</h3>
+		<h4>Miniprep</h4>
+			<span class="kyoto-author">Murata and Yasuda</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+					<th>260/280</th>
+					<th>260/230</th>
+				</tr>
+				<tr>
+					<td>3/17 DT CP</td>
+					<td>64.4</td>
+					<td>1.17</td>
+					<td>0.29</td>
+				</tr>
+				<tr>
+					<td>3/17 RBS Amp</td>
+					<td>61.4</td>
+					<td>1.28</td>
+					<td>0.36</td>
+				</tr>
+				<tr>
+					<td>3/17 T7 Amp</td>
+					<td>66.8</td>
+					<td>1.22</td>
+					<td>0.34</td>
+				</tr>
+				<tr>
+					<td>3/17 pSB1C3</td>
+					<td>64.2</td>
+					<td>1.31</td>
+					<td>0.39</td>
+				</tr>
+			</table>
+		<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Yoshida</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>pSB1C3 E,S 3/18 miniprep product</td>
+					<td>20</td>
+					<td>1</td>
+					<td>1</td>
+					<td>-</td>
+					<td>-</td>
+					<td>M</td>
+					<td>3</td>
+					<td>3</td>
+					<td>2</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>control</td>
+					<td>3</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>M</td>
+					<td>1</td>
+					<td>1</td>
+					<td>5</td>
+					<td>10</td>
+				</tr>
+			</table>
+		<h4>Cloning PCR</h4>
+			<span class="kyoto-author">Murata and Yasuda</span>
+			<table>
+				<tr>
+					<th>2K KAPA HiFi HotStart ReadyMix/(&micro;L)</th>
+					<th>F dddD 66/(&micro;L)</th>
+					<th>R dddD 65/(&micro;L)</th>
+					<th>R.pomeroyi Genome/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>12.5</td>
+					<td>0.75</td>
+					<td>0.75</td>
+					<td>3</td>
+					<td>8</td>
+					<td>25</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+					<th>Final Extension</th>
+				</tr>
+				<tr>
+					<td>95&deg;C</td>
+					<td>98&deg;C</td>
+					<td>65&deg;C</td>
+					<td>72&deg;C</td>
+					<td>72&deg;C</td>
+				</tr>
+				<tr>
+					<td>3min</td>
+					<td>20sec</td>
+					<td>15sec</td>
+					<td>150sec</td>
+					<td>1sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 25cycle</p>
+</div>
+<div>
+	<a name="0319" class="kyoto-jump"></a>
+	<h3>3/19</h3>
+		<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Yoshida</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>pSB1C3 3/18 miniprep product</td>
+					<td>20</td>
+					<td>1</td>
+					<td>-</td>
+					<td>1</td>
+					<td>-</td>
+					<td>H</td>
+					<td>3</td>
+					<td>-</td>
+					<td>5</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>control</td>
+					<td>3</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>-</td>
+					<td>H</td>
+					<td>1</td>
+					<td>-</td>
+					<td>6</td>
+					<td>10</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Kojima</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>dddD PCR product</td>
+				</tr>
+			</table>
+		<h4>PCR</h4>
+			<span class="kyoto-author">Kojima</span>
+			<table>
+				<tr>
+					<th>3/19 DNA Purification product/(&micro;L)</th>
+					<th>F/(&micro;L)</th>
+					<th>R/(&micro;L)</th>
+					<th>HiFi Mix/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>0.75</td>
+					<td>0.75</td>
+					<td>12.5</td>
+					<td>10</td>
+					<td>25</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>R.pomeroyi Genome/(&micro;L)</th>
+					<th>F/(&micro;L)</th>
+					<th>R/(&micro;L)</th>
+					<th>HiFi Mix/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>0.75</td>
+					<td>0.75</td>
+					<td>12.5</td>
+					<td>8</td>
+					<td>25</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+					<th>Final Extension</th>
+				</tr>
+				<tr>
+					<td>95&deg;C</td>
+					<td>98&deg;C</td>
+					<td>68&deg;C</td>
+					<td>72&deg;C</td>
+					<td>72&deg;C</td>
+				</tr>
+				<tr>
+					<td>5min</td>
+					<td>20sec</td>
+					<td>15sec</td>
+					<td>90sec</td>
+					<td>5min</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 25cycle</p>
+</div>
+<div>
+	<a name="0320" class="kyoto-jump"></a>
+	<h3>3/20</h3>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Kojima</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>pSB1C3 E,S</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>control</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>dddD(1) 3/19 PCR product</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>dddD(2) 3/19 PCR product</td>
+				</tr>
+			</table>
+		<h4>Gel Extraction</h4>
+			<span class="kyoto-author">Yasuda and Tatsui</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>pSB1C3</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>pSB1C3</td>
+				</tr>
+			</table>
+		<h4>Gel Extraction</h4>
+			<span class="kyoto-author">Murara</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>dddD</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>dddD</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+					<th>260/280</th>
+					<th>260/230</th>
+				</tr>
+				<tr>
+					<td>dddD</td>
+					<td>35</td>
+					<td>1.63</td>
+					<td>0.85</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0324" class="kyoto-jump"></a>
+	<h3>3/24</h3>
+		<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Honda</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>pSB1C3</td>
+					<td>11</td>
+					<td>0.5</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>-</td>
+					<td>M</td>
+					<td>1.5</td>
+					<td>1.5</td>
+					<td>-</td>
+					<td>15</td>
+				</tr>
+				<tr>
+					<td>dddD</td>
+					<td>12.5</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>M</td>
+					<td>1.5</td>
+					<td>-</td>
+					<td>-</td>
+					<td>15</td>
+				</tr>
+			</table>
+		<h4>PCR</h4>
+			<span class="kyoto-author">Honda</span>
+			<table>
+				<tr>
+					<th>2x KAPA HiFi HotStart ReadyMix/(&micro;L)</th>
+					<th>F dddD 62/(&micro;L)</th>
+					<th>R dddD 68/(&micro;L)</th>
+					<th>Templete/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>12.5</td>
+					<td>0.75</td>
+					<td>0.75</td>
+					<td>pick up</td>
+					<td>11</td>
+					<td>25</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+					<th>Final Extension</th>
+					<th>Cooling</th>
+				</tr>
+				<tr>
+					<td>95&deg;C</td>
+					<td>98&deg;C</td>
+					<td>68&deg;C</td>
+					<td>72&deg;C</td>
+					<td>72&deg;C</td>
+				</tr>
+				<tr>
+					<td>5min</td>
+					<td>20sec</td>
+					<td>15sec</td>
+					<td>90sec</td>
+					<td>5min</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 25cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>dddD</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+					<th>260/280</th>
+					<th>260/230</th>
+				</tr>
+				<tr>
+					<td>dddD</td>
+					<td>63.7</td>
+					<td>1.77</td>
+					<td>1.88</td>
+				</tr>
+			</table>
+		<h4>Ligation</h4>
+			<span class="kyoto-author">Honda</span>
+			<table>
+				<tr>
+					<th colspan=2>Vector/(&micro;L)</th>
+					<th colspan=2>Insert/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th colspan=2>Ligase/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</tr>
+				<tr>
+					<td>dddD</td>
+					<td>1.3</td>
+					<td>pSB1C3</td>
+					<td>0.43</td>
+					<td>2xBuffer</td>
+					<td>5</td>
+					<td>T4Ligase</td>
+					<td>1</td>
+					<td>2.27</td>
+					<td>10</td>
+				</tr>
+			</table>
+		<h4>Liquid Culture</h4>
+			<span class="kyoto-author">Tatsui</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>pSB1C3(3)</td>
+					<td>CP</td>
+				</tr>
+				<tr>
+					<td>pSB1C3(4)</td>
+					<td>CP</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0325" class="kyoto-jump"></a>
+	<h3>3/25</h3>
+		<h4>Miniprep</h4>
+			<span class="kyoto-author">Tatsui</span>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+				</tr>
+				<tr>
+					<td>pSB1C3 3/24 (3)</td>
+					<td>41</td>
+				</tr>
+				<tr>
+					<td>pSB1C3 3/24 (4)</td>
+					<td>57</td>
+				</tr>
+			</table>
+	<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Murata</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>pSB1C3 3/24 (3)</td>
+					<td>15.4</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>H</td>
+					<td>3</td>
+					<td>-</td>
+					<td>10.6</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>pSB1C3 3/24 (4)</td>
+					<td>3.2</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>H</td>
+					<td>3</td>
+					<td>-</td>
+					<td>22.8</td>
+					<td>30</td>
+				</tr>
+			</table>
+		<h4>Gel Extraction</h4>
+			<span class="kyoto-author">Murata</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>pSB1C3(3) E,S 3/25</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>dddD 3/25 E,S</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>dddD 3/25 E,S</td>
+				</tr>
+			</table>
+		<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+					<th>260/280</th>
+					<th>260/230</th>
+				</tr>
+				<tr>
+					<td>dddD</td>
+					<td>4.9</td>
+					<td>17.5</td>
+					<td>0.52</td>
+				</tr>
+				<tr>
+					<td>pSB1C3</td>
+					<td>2.0</td>
+					<td>-</td>
+					<td>0.21</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0326" class="kyoto-jump"></a>
+	<h3>3/26</h3>
+		<h4>Ligation</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th colspan=2>Vector/(&micro;L)</th>
+					<th colspan=2>Insert/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th colspan=2>Ligase/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</tr>
+				<tr>
+					<td>pSB1C3</td>
+					<td>30</td>
+					<td>dddD</td>
+					<td>30</td>
+					<td>2x Rapid Ligation Buffer</td>
+					<td>5</td>
+					<td>T4Ligase</td>
+					<td>3</td>
+					<td>-</td>
+					<td>10</td>
+				</tr>
+			</table>
+		<h4>Transformation</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th>Sample/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>dddD(pSB1C3)</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0327" class="kyoto-jump"></a>
+	<h3>3/27</h3>
+		<h4>Restriction Enzyme Digestion</h4>
+			<span class="kyoto-author">Murata</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th>EcoR1/(&micro;L)</th>
+					<th>Xba1/(&micro;L)</th>
+					<th>Spe1/(&micro;L)</th>
+					<th>Pst1/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th>BSA/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>pSB1C3(4)3/25</td>
+					<td>20.1</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>10xBuffer</td>
+					<td>3</td>
+					<td>-</td>
+					<td>5.9</td>
+					<td>30</td>
+				</tr>
+				<tr>
+					<td>dddD 3/24 PCR product</td>
+					<td>3.2</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>0.5</td>
+					<td>-</td>
+					<td>10xBuffer</td>
+					<td>3</td>
+					<td>-</td>
+					<td>22.8</td>
+					<td>30</td>
+				</tr>
+			</table>
+		<h4>Gel Extraction</h4>
+			<span class="kyoto-author">Honda</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>pSB1C3 E,S 3/27</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>pSB1C3 E,S 3/27</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>dddD E,S 3/27</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>dddD E,S 3/27</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Sample</th>
+					<th>Concentration/(&micro;g/mL)</th>
+					<th>260/280</th>
+					<th>260/230</th>
+				</tr>
+				<tr>
+					<td>pSB1C3</td>
+					<td>9</td>
+					<td>1.58</td>
+					<td>0.04</td>
+				</tr>
+				<tr>
+					<td>dddD</td>
+					<td>16.0</td>
+					<td>1.78</td>
+					<td>0.08</td>
+				</tr>
+			</table>
+		<h4>Ligation</h4>
+			<span class="kyoto-author">Honda</span>
+			<table>
+				<tr>
+					<th colspan=2>Vector/(&micro;L)</th>
+					<th colspan=2>Insert/(&micro;L)</th>
+					<th colspan=2>Buffer/(&micro;L)</th>
+					<th colspan=2>Ligase/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</tr>
+				<tr>
+					<td>pSB1C3</td>
+					<td>11</td>
+					<td>dddD</td>
+					<td>15</td>
+					<td>2x Rapid Ligation Buffer</td>
+					<td>5</td>
+					<td>T4 DNA Ligase</td>
+					<td>1</td>
+					<td>4</td>
+					<td>10</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0328" class="kyoto-jump"></a>
+	<h3>3/28</h3>
+		<h4>PCR</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th>2x KAPA HiFi HotStart ReadyMix/(&micro;L)</th>
+					<th>F Sequence primer/(&micro;L)</th>
+					<th>R Spe1-dddD/(&micro;L)</th>
+					<th>Templete/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>12.5</td>
+					<td>0.75</td>
+					<td>0.75</td>
+					<td>pick up</td>
+					<td>11</td>
+					<td>25</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+					<th>Final Extension</th>
+					<th>Cooling</th>
+				</tr>
+				<tr>
+					<td>95&deg;C</td>
+					<td>98&deg;C</td>
+					<td>68&deg;C</td>
+					<td>72&deg;C</td>
+					<td>72&deg;C</td>
+				</tr>
+				<tr>
+					<td>5min</td>
+					<td>20sec</td>
+					<td>15sec</td>
+					<td>90sec</td>
+					<td>5min</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 25cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>Sequence primer (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>Sequence primer (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>Sequence primer (3)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>Sequence primer (4)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>Sequence primer (5)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>Sequence primer (6)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>Sequence primer VF2</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>F pre-dddD PCR product 62</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>Blank</td>
+				</tr>
+			</table>
+		<h4>Electrophoresis</h4>
+			<span class="kyoto-author">Murata</span>
+			<table>
+				<tr>
+					<th>Lane</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>Seaquence primer (1) PCR product</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>Seaquence primer (2) PCR product</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>Seaquence primer (3) PCR product</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>Seaquence primer (4) PCR product</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>Seaquence primer (5) PCR product</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>Seaquence primer (6) PCR product</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>Seaquence primer VF2</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>F pre-dddD cloning</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>Blank</td>
+				</tr>
+				<tr>
+					<td>11</td>
+					<td>1kbp ladder</td>
+				</tr>
+			</table>
+		<h4>Transformation</h4>
+			<span class="kyoto-author">Kojima</span>
+			<table>
+				<tr>
+					<th colspan=2>Sample/(&micro;L)</th>
+					<th colspan=2>CompetentCells/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+					<th>Medium</th>
+				</tr>
+				<tr>
+					<td>dddD</td>
+					<td>1</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
+					<td>10</td>
+					<td>11</td>
+					<td>CP</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0330" class="kyoto-jump"></a>
+	<h3>3/30</h3>
+		<h4>Colony PCR</h4>
+			<span class="kyoto-author">Yasuda</span>
+			<table>
+				<tr>
+					<th>Quick Taq/(&micro;L)</th>
+					<th>VF2/(&micro;L)</th>
+					<th>VR/(&micro;L)</th>
+					<th>MilliQ/(&micro;L)</th>
+					<th>Total/(&micro;L)</th>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>0.2</td>
+					<td>0.2</td>
+					<td>4.6</td>
+					<td>10</td>
+				</tr>
+			</table>
+			<table>
+				<tr>
+					<th>Predenature</th>
+					<th>Denature</th>
+					<th>Annealing</th>
+					<th>Extension</th>
+				</tr>
+				<tr>
+					<td>97&deg;C</td>
+					<td>95&deg;C</td>
+					<td>58&deg;C</td>
+					<td>68&deg;C</td>
+				</tr>
+				<tr>
+					<td>2min</td>
+					<td>30sec</td>
+					<td>30sec</td>
+					<td>168sec</td>
+				</tr>
+			</table>
+			<p>Denature-Annealing-Extension 30cycle</p>
+			<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>3/26 dddD(pSB1C3) (1)</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/26 dddD(pSB1C3) (2)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/26 dddD(pSB1C3) (3)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/26 dddD(pSB1C3) (4)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/26 dddD(pSB1C3) (5)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/28 dddD(pSB1C3) (6)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>3/28 dddD(pSB1C3) (7)</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/28 dddD(pSB1C3) (8)</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>3/28 dddD(pSB1C3) (9)</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>3/28 dddD(pSB1C3) (10)</td>
+				</tr>
+			</table>
+</div>
+<div>
+	<a name="0331" class="kyoto-jump"></a>
+	<h3>3/31</h3>
+		<table>
+				<tr>
+					<th>Number</th>
+					<th>Sample</th>
+				</tr>
+				<tr>
+					<td>1</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>3/26 dddD(pSB1C3) (1)</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>3/26 dddD(pSB1C3) (2)</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>3/26 dddD(pSB1C3) (3)</td>
+				</tr>
+				<tr>
+					<td>5</td>
+					<td>3/26 dddD(pSB1C3) (4)</td>
+				</tr>
+				<tr>
+					<td>6</td>
+					<td>3/26 dddD(pSB1C3) (5)</td>
+				</tr>
+				<tr>
+					<td>7</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>8</td>
+					<td>3/28 dddD(pSB1C3) (6)</td>
+				</tr>
+				<tr>
+					<td>9</td>
+					<td>3/28 dddD(pSB1C3) (7)</td>
+				</tr>
+				<tr>
+					<td>10</td>
+					<td>3/28 dddD(pSB1C3) (8)</td>
+				</tr>
+				<tr>
+					<td>11</td>
+					<td>3/28 dddD(pSB1C3) (9)</td>
+				</tr>
+				<tr>
+					<td>12</td>
+					<td>3/28 dddD(pSB1C3) (10)</td>
+				</tr>
+				<tr>
+					<td>13</td>
+					<td>1kbp ladder</td>
+				</tr>
+			</table>
+</div>
+<!--ここまで春実験-->
+<!--ここから８月-->
 <div>
@@ Line 124: / Line 2,553: @@
 				</tr>
 				<tr>
-					<td>pSB1C3</td>
+					<td>PSB1C3</td>
 					<td>13.3</td>
 					<td>1.90</td>
@@ Line 148: / Line 2,577: @@
 					<th>Total/(&micro;L)</tr>
 				<tr>
-					<td>8/1 pSB1C3 gel extraction product 2047bp</td>
+					<td>8/1 PSB1C3 gel extraction product 2047bp</td>
 					<td>1.5</td>
 					<td>8/1 dddD gel extraction product 2545bp</td>
@@ Line 171: / Line 2,600: @@
 				</tr>
 				<tr>
-					<td>pSB1C3-dddD</td>
+					<td>PSB1C3-dddD</td>
 					<td>3</td>
-					<td>コンピ名</td>
+					<td>Self-Making Competent Cells (DH5&#945;)</td>
 					<td>30</td>
 					<td>33</td>
@@ Line 238: / Line 2,667: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 384: / Line 2,813: @@
 	<h3>8/3</h3>
-		<h4>@</h4>
+		<h4>Electrophoresis</h4>
 			<span class="kyoto-author">Murata</span>
 			<table>
@@ Line 465: / Line 2,894: @@
 				<tr>
 					<td>pSB1C3</td>
-					<td>@</td>
+					<td>12.5</td>
 					<td>1.37</td>
 					<td>0.42</td>
@@ Line 489: / Line 2,918: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 614: / Line 3,043: @@
 			<table>
 				<tr>
-					<th>*Quick Tag/(&micro;L)</th>
+					<th>*Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 631: / Line 3,060: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 648: / Line 3,077: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 665: / Line 3,094: @@
 			<table>
 				<tr>
-					<th>*Quick Tag/(&micro;L)</th>
+					<th>*Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 732: / Line 3,161: @@
 </div>
 <div>
@@ Line 743: / Line 3,171: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 760: / Line 3,188: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 779: / Line 3,207: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 796: / Line 3,224: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 933: / Line 3,361: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 1,072: / Line 3,500: @@
 				<tr>
 					<td>4</td>
-					<td>@</td>
+					<td>Blank</td>
 				</tr>
 				<tr>
@@ Line 1,173: / Line 3,601: @@
 					<td>8/19 Ligation (1)</td>
 					<td>11.2</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>50</td>
 					<td>61.2</td>
@@ Line 1,181: / Line 3,609: @@
 					<td>8/19 Ligation (2)</td>
 					<td>11.2</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>50</td>
 					<td>61.2</td>
@@ Line 1,245: / Line 3,673: @@
 					<td>dddD+pSB1C3</td>
 					<td>5</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>20</td>
 					<td>25</td>
@@ Line 1,253: / Line 3,681: @@
 					<td>control</td>
 					<td>5</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>20</td>
 					<td>25</td>
@@ Line 1,259: / Line 3,687: @@
 				</tr>
 			</table>
-			<p>@</P>
 </div>
@@ Line 1,272: / Line 3,700: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 1,440: / Line 3,868: @@
 			</table>
 </div>
 <div>
@@ Line 1,455: / Line 3,882: @@
 				</tr>
 				<tr>
-					<td>@</td>
+					<td>1</td>
-					<td>@</td>
+					<td>1kbp ladder</td>
+				</tr>
+				<tr>
+					<td>2</td>
+					<td>8/22 Mp(1) E,S</td>
+				</tr>
+				<tr>
+					<td>3</td>
+					<td>8/22 Mp(1) E,S</td>
+				</tr>
+				<tr>
+					<td>4</td>
+					<td>8/22 Mp(1) E,S</td>
 				</tr>
 			</table>
@@ Line 1,524: / Line 3,963: @@
 					<td>8/25 Ligation (1)</td>
 					<td>10</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>50</td>
 					<td>60</td>
@@ Line 1,532: / Line 3,971: @@
 					<td>8/25 Ligation(2)</td>
 					<td>10</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>50</td>
 					<td>60</td>
@@ Line 1,540: / Line 3,979: @@
 					<td>8/25 Ligation(3)</td>
 					<td>10</td>
-					<td>@</td>
+					<td>Competent Cells (DH5&#945;)</td>
 					<td>30</td>
 					<td>40</td>
@@ Line 1,546: / Line 3,985: @@
 				</tr>
 			</table>
-			<p>@</p>
 </div>
 <div>
@@ Line 1,558: / Line 3,996: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>Quick Taq/(&micro;L)</th>
 					<th>VF2/(&micro;L)</th>
 					<th>VR/(&micro;L)</th>
@@ Line 1,769: / Line 4,207: @@
 			<table>
 				<tr>
-					<th>Quick Tag/(&micro;L)</th>
+					<th>2x KARA HiFi HotStart ReadyMix /(&micro;L)</th>
-					<th>VF2/(&micro;L)</th>
+					<th>V Pre-dddD 62/(&micro;L)</th>
-					<th>VR/(&micro;L)</th>
+					<th>Rv Spe1-dddD 68/(&micro;L)</th>
 					<th>MilliQ/(&micro;L)</th>
+					<th>DNA Purification dddD without Pre-Suf</th>
 					<th>Total/(&micro;L)</th>
 				</tr>
 				<tr>
-					<td>@</td>
+					<td>12.5</td>
-					<td>@</td>
+					<td>0.75</td>
-					<td>@</td>
+					<td>0.75</td>
-					<td>@</td>
+					<td>11</td>
+					<td>pick up</td>
 					<td>25</td>
 				</tr>
@@ Line 1,803: / Line 4,243: @@
 				</tr>
 			</table>
-			<p>Denature-Annealing-Extension @cycle</p>
+			<p>Denature-Annealing-Extension 25cycle</p>
 		<h4>DNA Purification</h4>
@@ Line 1,934: / Line 4,374: @@
 					<td>DH5a</td>
 					<td>20</td>
-					<td>@</td>
+					<td>21</td>
 					<td>SOC</td>
 				</tr>
 			</table>
-</div>

2x KAPA HiFi HotStart ReadyMix/(µL)	Fw primer 59/(µL)	Rv primer Ver.2 64/(µL)	3/19 dddD(DNA purification) /(µL)	MilliQ/(µL)	Total/(µL)
12.5	0.75	0.75	0.1	11	25