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mammalian host cell lines are monkey kidney cv1 line  (ATCC)
99
ATCC mammalian host cell lines are monkey kidney cv1 line
Mammalian Host Cell Lines Are Monkey Kidney Cv1 Line, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mammalian host cell lines are monkey kidney cv1 line - by Bioz Stars, 2026-04
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broad host range conjugative plasmid prk24  (Addgene inc)
92
Addgene inc broad host range conjugative plasmid prk24
Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via <t>pRK24-mediated</t> conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.
Broad Host Range Conjugative Plasmid Prk24, supplied by Addgene inc, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/broad host range conjugative plasmid prk24/product/Addgene inc
Average 92 stars, based on 1 article reviews
broad host range conjugative plasmid prk24 - by Bioz Stars, 2026-04
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virus host cell lines hep2  (ATCC)
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ATCC virus host cell lines hep2
Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via <t>pRK24-mediated</t> conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.
Virus Host Cell Lines Hep2, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/virus host cell lines hep2/product/ATCC
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virus host cell lines hep2 - by Bioz Stars, 2026-04
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mammalian host cells include sv40 transformed monkey kidney cell cv1  (ATCC)
99
ATCC mammalian host cells include sv40 transformed monkey kidney cell cv1
Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via <t>pRK24-mediated</t> conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.
Mammalian Host Cells Include Sv40 Transformed Monkey Kidney Cell Cv1, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mammalian host cells include sv40 transformed monkey kidney cell cv1/product/ATCC
Average 99 stars, based on 1 article reviews
mammalian host cells include sv40 transformed monkey kidney cell cv1 - by Bioz Stars, 2026-04
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host thp 1 macrophages  (ATCC)
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ATCC host thp 1 macrophages
Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via <t>pRK24-mediated</t> conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.
Host Thp 1 Macrophages, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/host thp 1 macrophages/product/ATCC
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host thp 1 macrophages - by Bioz Stars, 2026-04
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host 260 species  (Proteintech)
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Proteintech host 260 species
Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via <t>pRK24-mediated</t> conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.
Host 260 Species, supplied by Proteintech, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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host 260 species - by Bioz Stars, 2026-04
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host hela cells  (ATCC)
99
ATCC host hela cells
Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via <t>pRK24-mediated</t> conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.
Host Hela Cells, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/host hela cells/product/ATCC
Average 99 stars, based on 1 article reviews
host hela cells - by Bioz Stars, 2026-04
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Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via pRK24-mediated conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.

Journal: bioRxiv

Article Title: Programmable domestication of thermophilic bacteria through removal of non-canonical defense systems

doi: 10.64898/2026.03.21.713436

Figure Lengend Snippet: Plasmid artificial modification–assisted conjugative engineering (PACE). Methylation-matched plasmids produced in engineered E. coli donor strains are transferred to Geobacillus recipients via pRK24-mediated conjugation. While host-specific methylation enables restriction evasion, intracellular defense systems limit plasmid establishment in wild strains. b, Architecture of the native Type II-C CRISPR–Cas system (GeoCas9EF) adapted for genome editing. A 21-bp spacer sgRNA cassette targets genomic loci adjacent to a protospacer-adjacent motif (PAM). c, Sequence logo of the preferred PAM recognized by GeoCas9EF in G. stearothermophilus EF60045, indicating a consensus 5’-NNNNCAAA- 3’ motif. d, CRISPR-mediated genome editing strategy. A conjugative plasmid carrying GeoCas9EF, sgRNA, and homologous repair arms enables genome modification via Cas9-induced cleavage and homologous recombination. Single-crossover (SCO) intermediates are resolved into double-crossover (DCO) mutants or false positives. Promotor optimization for Cas9 expression in strain SJEF4-2 is shown. e, PCR validation of representative gene deletions generated by CRISPR editing in SJEF4-2 and EF60045, targeting pyrimidine biosynthesis loci (e.g., pyrR and pyrFE ). Expected fragment sizes are indicated. f, Transformation efficiencies following sequential removal of endogenous defense systems. In EF60045 and SJEF4-2, deletion of native plasmids and non-canonical defense modules, including Wadjet II, BREX, CBASS, Gabija, Abi, and SspBCDE, dramatically increased electroporation efficiency (CFU µg ¹ DNA) and conjugation efficiency (transconjugants per recipient), revealing these systems as dominant barriers to genetic domestication.

Article Snippet: The broad-host-range conjugative plasmid pRK24 (Addgene plasmid # 51950, courtesy of Farren Isaacs) was first introduced into E. coli MC variants and selected on tetracycline (10 μg/mL).

Techniques: Plasmid Preparation, Modification, Methylation, Produced, Conjugation Assay, CRISPR, Sequencing, Homologous Recombination, Expressing, Biomarker Discovery, Generated, Transformation Assay, Electroporation