P1 plasmid replication: multiple functions of RepA protein at the origin. - Wikidata - awgldk - TriplyDB

P1 plasmid replication: multiple functions of RepA protein at the origin.

P1 plasmid replication: multiple functions of RepA protein at the origin.

http://www.wikidata.org/entity/Q37685319

about

Genome of bacteriophage P1 Purification of a yeast protein that binds to origins of DNA replication and a transcriptional silencer.The CbrA-CbrB two-component regulatory system controls the utilization of multiple carbon and nitrogen sources in Pseudomonas aeruginosa Complete DNA sequence and detailed analysis of the Yersinia pestis KIM5 plasmid encoding murine toxin and capsular antigen Conjugative Type 4 secretion system of a novel large plasmid from the chemoautotroph Tetrathiobacter kashmirensis and construction of shuttle vectors for Alcaligenaceae.Investigations of pi initiator protein-mediated interaction between replication origins alpha and gamma of the plasmid R6K.Multiple homeostatic mechanisms in the control of P1 plasmid replication P1 plasmid replication requires methylated DNA.AT-rich region and repeated sequences - the essential elements of replication origins of bacterial replicons.Initiator protein dimerization plays a key role in replication control of Vibrio cholerae chromosome 2 Replication of mini-P1 plasmid DNA in vitro requires two initiation proteins, encoded by the repA gene of phage P1 and the dnaA gene of Escherichia coli.The evolution of collective restraint: policing and obedience among non-conjugative plasmids.Evidence for two different regulatory mechanisms linking replication and segregation of vibrio cholerae chromosome II Missing-base and ethylation interference footprinting of P1 plasmid replication initiator.Replication-induced transcription of an autorepressed gene: the replication initiator gene of plasmid P1.Mutational and in vivo methylation analysis of F-factor PifC protein binding to the pif operator and the region containing the primary origin of mini-F replication.Host participation in plasmid maintenance: dependence upon dnaA of replicons derived from P1 and F In vitro inhibitory activity of RepC/C*, the inactivated form of the pT181 plasmid initiation protein, RepC.Roles of long and short replication initiation proteins in the fate of IncP-1 plasmids.The c1 repressor of bacteriophage P1 operator-repressor interaction of wild-type and mutant repressor proteins.Heat shock proteins DnaJ, DnaK, and GrpE stimulate P1 plasmid replication by promoting initiator binding to the origin.Functional characterization of a replication initiator protein Critical sequences in the core of the P1 plasmid replication origin.Effects of mutations in the repA gene of plasmid Rts1 on plasmid replication and autorepressor function.Second-site revertants of the P1 copN22 copy mutant.Evidence for two sets of structural genes coding for ribulose bisphosphate carboxylase in Thiobacillus ferrooxidans.Protein-DNA interactions in regulation of P1 plasmid replication.Participation of the lytic replicon in bacteriophage P1 plasmid maintenance Anabolic ornithine carbamoyltransferase of Pseudomonas aeruginosa: nucleotide sequence and transcriptional control of the argF structural gene Minimal region necessary for autonomous replication of pTAR.P1 plasmid replication: initiator sequestration is inadequate to explain control by initiator-binding sites.P1 plasmid replication: measurement of initiator protein concentration in vivo.A single DnaA box is sufficient for initiation from the P1 plasmid origin.Location of a P1 plasmid replication inhibitor determinant within the initiator gene Replication of the broad-host-range plasmid RK2: direct measurement of intracellular concentrations of the essential TrfA replication proteins and their effect on plasmid copy number Mutations in the trfA replication gene of the broad-host-range plasmid RK2 result in elevated plasmid copy numbers.Partition functions of unit-copy plasmids can stabilize the maintenance of plasmid pBR322 at low copy number.Identification and classification of bacterial plasmids.Host range diversification within the IncP-1 plasmid group.Sequence-specific interaction between the replication initiator protein of plasmid pT181 and its origin of replication.

P2860

Q24563143-535027F4-6004-4B80-95A7-669B790A90CF Q27933163-6E4C6E25-5641-4987-9D2C-287223B805B2 Q28492493-FD4047B0-780D-4E64-AB16-BD3C29B0B215 Q31968496-E08E932B-79CB-46B1-9F8F-8B6A004971DD Q33438232-CCB4F2C4-6ED4-4772-AB41-9408FDFD4260 Q33648475-830B0970-4D6F-4A44-B552-21A387A6E4EB Q33864292-C4145098-3071-4DE1-A8C2-4302A72F1A8B Q33929748-EE31D1CA-60D5-40B8-B4FB-2E440A46D107 Q34233413-3C0F6A84-DD8B-4E3E-8029-56EEA54191FC Q34249622-733C3678-6504-4C6E-BDCC-35C3185BA1F0 Q34627054-E6E797C6-BA8E-4AFE-91CA-10B9D43ABD01 Q34699680-60DE3F70-4D6A-442E-A38C-A2ED97C6479C Q34789444-F2954647-7EBB-4517-BA12-0E7983C952BE Q34800398-C08B6BD3-2B27-48AB-AE6D-A9B544C03CFE Q35153980-36785FA1-07B5-41A5-8AC9-F63DC872A6ED Q35593248-12A2444E-8757-4608-B929-C8EA09893688 Q35611641-2AAD2F80-5E03-4613-8064-706E964B91D3 Q35618514-8098BAB1-47FC-44DE-8229-F05FAFDFDED8 Q35806093-B5F23535-A67E-475E-A4B7-D5EC6A6E5447 Q35948307-1CE061E5-34AC-492A-B9C0-30785B1D2FF2 Q36101720-52CF9CD6-8429-48BC-A2CE-01BF7DB45852 Q36101759-F72CE829-9BD3-4A57-BD79-265EF045BA9A Q36147487-8FE69C07-33CE-4DB2-9C4B-15A2187831D3 Q36158022-9258895F-78A8-4834-A464-DA000AC8938C Q36162665-6A4010F8-4D11-4790-B353-2843FAF1167D Q36166071-0917E8FB-C5B6-4497-A604-1F57366FBBAA Q36172305-22E1AD1F-7251-4711-A27A-ECE2FDA46743 Q36181468-31F07345-9648-47C5-9FC5-5FF5AAA33FA7 Q36205451-2BC6872A-4238-4951-9D88-FDCC851FC5D7 Q36208183-BAABC322-1C1B-453D-A355-AA9CB1E460DB Q36210816-5508D234-5556-42A8-95BE-6E64B1A5C8B3 Q36240951-2CAABC83-2E95-4795-872A-3732D5350A05 Q36255044-E7A80EC9-731B-4807-8B5B-526AABEEAF77 Q36255295-5E4C6DB8-9D9D-4F90-8887-C6ED41949309 Q36257196-C77F9F3D-B79B-474F-9810-CFAA49AE39EB Q36257206-490FB0BF-A922-45DD-B34D-F5F5154BDC38 Q36261070-44DC7DB5-0C6A-4EA4-8D74-CAB8E79EB358 Q37064518-BCF29FBC-A214-4C81-90E0-1CE9791677BF Q37332245-19407CC9-87EA-4D29-A16F-6FAF3E804725 Q37391997-09A94000-D7C5-4D02-8BC2-CE3B0419C368

P2860

P1 plasmid replication: multiple functions of RepA protein at the origin.

http://www.wikidata.org/entity/Q37685319

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on May 1985

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

P1 plasmid replication: multiple functions of RepA protein at the origin.

@en

P1 plasmid replication: multiple functions of RepA protein at the origin.

@nl

type

label

P1 plasmid replication: multiple functions of RepA protein at the origin.

@en

P1 plasmid replication: multiple functions of RepA protein at the origin.

@nl

prefLabel

P1 plasmid replication: multiple functions of RepA protein at the origin.

@en

P1 plasmid replication: multiple functions of RepA protein at the origin.

@nl

P1433

Q37685319-B0208492-E636-425E-A329-F0A8EC0E34F0

P1476

Q37685319-DACC2EDE-0DD6-4020-9F0C-08B50E3EEC20

P2093

Q37685319-4C64DC09-2679-4370-925E-5EBD528CBAE2

Q37685319-523B7870-155E-48C7-99C6-7D25345FDD02

Q37685319-E221C4C6-950C-4705-A162-6354AA327C1E

P2860

Q37685319-017EAF18-1974-4EFD-BC18-1CBB9F3FAADF

Q37685319-153D3236-EF3A-4784-B414-F07321C8D442

Q37685319-1C06358F-33B2-4DF6-B893-D51CF8438FFE

Q37685319-200CB98C-0942-4D2E-998D-A3A308AB6FFF

Q37685319-249A83F8-B9CE-4A9B-8A60-1286A50628B2

Q37685319-28D10FAB-DFA2-44B6-B780-390DF7AFF5BB

Q37685319-3E203F8D-11CB-4612-8985-F0C88003D73D

Q37685319-3F79DC53-4EC7-4104-8E15-B06CFF5840DE

Q37685319-4D60E21F-2C30-4306-B228-3B5B313DCA42

Q37685319-7FDE5F7A-04E9-4153-8BE7-61E5031FD5D3

P304

Q37685319-5AC907C7-B5B0-4035-B25C-4BF0699EDB4E

P31

Q37685319-FD3184DB-2416-4BE8-BB94-49B1530D0126

P356

Q37685319-BD9737A2-19AA-482E-A11E-046897D26108

P407

Q37685319-651D675F-F51F-4A1C-A226-89392E34A899

P433

Q37685319-B2A65E7B-511A-4DFA-8807-CBC4723E1A7B

P478

Q37685319-779F4935-1C70-4802-8C20-745234EEE1DA

P577

Q37685319-45D016CB-DA24-49DE-B192-D658C3BFF579

P5875

Q37685319-83756AB3-D962-44E6-BDF7-13F687DF703E

P698

Q37685319-145B5DFE-60D1-473E-A72C-637BA3772E3E

P932

Q37685319-AF390E35-AEB1-45E6-A5B5-7199990265F0

P356

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

P1 plasmid replication: multiple functions of RepA protein at the origin.

@en

P2093

A L Abeles

http://www.w3.org/2001/XMLSchema#string

D K Chattoraj

http://www.w3.org/2001/XMLSchema#string

K M Snyder

http://www.w3.org/2001/XMLSchema#string

P2860

A new pair of M13 vectors for selecting either DNA strand of double-digest restriction fragments

Cloned Drosophila alcohol dehydrogenase genes are correctly expressed after transfection into Drosophila cells in culture.

Lambda placMu: a transposable derivative of bacteriophage lambda for creating lacZ protein fusions in a single step.

Isolation and characterization of P1 minireplicons, lambda-P1:5R and lambda-P1:5L.

Regulation of plasmid replication

Purified dnaA protein in initiation of replication at the Escherichia coli chromosomal origin of replication.

Plasmid P1 replication: negative control by repeated DNA sequences.

Complete nucleotide sequence of mini-Rts1 and its copy mutant.

Role of nine repeating sequences of the mini-F genome for expression of F-specific incompatibility phenotype and copy number control.

Escherichia coli promoter sequences predict in vitro RNA polymerase selectivity

P304

2588-2592

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.82.9.2588

http://www.w3.org/2001/XMLSchema#string

P407

P433

9

http://www.w3.org/2001/XMLSchema#string

P478

82

http://www.w3.org/2001/XMLSchema#string

P577

1985-05-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

19303540

http://www.w3.org/2001/XMLSchema#string

P698

3857601

http://www.w3.org/2001/XMLSchema#string

P932

397609

http://www.w3.org/2001/XMLSchema#string