e coli s17 1 Search Results


e coli s17  (Addgene inc)
90
Addgene inc e coli s17
E Coli S17, supplied by Addgene inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e. coli sm10 λpir kmr  (Biomedal Inc)
90
Biomedal Inc e. coli sm10 λpir kmr
E. Coli Sm10 λpir Kmr, supplied by Biomedal Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e. coli s17-1  (Difco)
90
Difco e. coli s17-1
Bacterial Strains
E. Coli S17 1, supplied by Difco, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e. coli s17-1( pir)  (BioResource International Inc)
90
BioResource International Inc e. coli s17-1( pir)
Bacterial Strains
E. Coli S17 1( Pir), supplied by BioResource International Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e. coli s17-1  (Anzai Medical Co Ltd)
90
Anzai Medical Co Ltd e. coli s17-1
HPLC chromatograms of M-IV bioconversion with <t>Escherichia</t> <t>coli</t> expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.
E. Coli S17 1, supplied by Anzai Medical Co Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/e. coli s17-1/product/Anzai Medical Co Ltd
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e. coli s17-1 - by Bioz Stars, 2026-04
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e. coli donor strains s17-1.pi.g1pelr05d12  (Marburg GmbH)
90
Marburg GmbH e. coli donor strains s17-1.pi.g1pelr05d12
HPLC chromatograms of M-IV bioconversion with <t>Escherichia</t> <t>coli</t> expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.
E. Coli Donor Strains S17 1.Pi.G1pelr05d12, supplied by Marburg GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e. coli s17-1  (New Brunswick Scientific)
90
New Brunswick Scientific e. coli s17-1
HPLC chromatograms of M-IV bioconversion with <t>Escherichia</t> <t>coli</t> expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.
E. Coli S17 1, supplied by New Brunswick Scientific, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e. coli s17-1 - by Bioz Stars, 2026-04
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e. coli s17-1  (Flett Research Ltd)
90
Flett Research Ltd e. coli s17-1
HPLC chromatograms of M-IV bioconversion with <t>Escherichia</t> <t>coli</t> expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.
E. Coli S17 1, supplied by Flett Research Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/e. coli s17-1/product/Flett Research Ltd
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e. coli s17.1 strain  (Blackwell Science Ltd)
90
Blackwell Science Ltd e. coli s17.1 strain
HPLC chromatograms of M-IV bioconversion with <t>Escherichia</t> <t>coli</t> expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.
E. Coli S17.1 Strain, supplied by Blackwell Science Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e.coli s17-1 smr, pro, thi, hsdr-m+, rp4-2-tc:mu- km:tn7, λpir  (Active Motif)
90
Active Motif e.coli s17-1 smr, pro, thi, hsdr-m+, rp4-2-tc:mu- km:tn7, λpir
HPLC chromatograms of M-IV bioconversion with <t>Escherichia</t> <t>coli</t> expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.
E.Coli S17 1 Smr, Pro, Thi, Hsdr M+, Rp4 2 Tc:Mu Km:Tn7, λpir, supplied by Active Motif, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/e.coli s17-1 smr, pro, thi, hsdr-m+, rp4-2-tc:mu- km:tn7, λpir/product/Active Motif
Average 90 stars, based on 1 article reviews
e.coli s17-1 smr, pro, thi, hsdr-m+, rp4-2-tc:mu- km:tn7, λpir - by Bioz Stars, 2026-04
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Image Search Results


Bacterial Strains

Journal: Methods in enzymology

Article Title: Recent Advances in the Genetic Manipulation of Methylosinus trichosporium OB3b

doi: 10.1016/bs.mie.2018.02.011

Figure Lengend Snippet: Bacterial Strains

Article Snippet: E. coli S17-1 , LB (Difco).

Techniques:

HPLC chromatograms of M-IV bioconversion with Escherichia coli expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.

Journal: Journal of Industrial Microbiology & Biotechnology

Article Title: Engineering sequence and selectivity of late-stage C-H oxidation in the MycG iterative cytochrome P450

doi: 10.1093/jimb/kuab069

Figure Lengend Snippet: HPLC chromatograms of M-IV bioconversion with Escherichia coli expressing wild-type MycG and its mutants RM92, RM96, and RM98. The solid blue line represents the chromatograms at 220 nm. The dotted red lines indicate chromatograms at 280 nm. The upper panels show the UV spectrograms of M-II and M-V (1 mM). *The retention times of M-II and M-V are almost the same, and the peaks overlap. The absorption maximum for M-II occurs at 220 nm, while that of M-V is at 220 and 280 nm (upper panels). At same concentrations, M-II and M-V have equal peak areas at 220 nm. In addition, M-V has same peak areas at 220 and 280 nm. Therefore, M-V can be detected with a chromatogram at 280 nm, and M-II can be detected by subtracting the chromatogram at 280 nm from that at 220 nm.

Article Snippet: pMG522, pMG523, pMG524, pMG525, and pMG526 were introduced into the previously prepared mycG disruption mutant M. griseorubida TPMA0025 by intergeneric conjugation with E. coli S17-1 (Anzai et al., ).

Techniques: Expressing