about
Bacterial genome instabilityGain and loss of phototrophic genes revealed by comparison of two Citromicrobium bacterial genomesExtrachromosomal elements as possible agents of adaptation and developmentExcision and duplication of su3+-transducing fragments carried by bacteriophage phi 80. I. Novel structure of phi 80sus2psu3+ DNA molecule.Lysogeny at mid-twentieth century: P1, P2, and other experimental systems.Revised linkage map of Escherichia coli.Virulence in bacteriophage Mu: a case of trans-dominant proteolysis by the Escherichia coli Clp serine proteaseThe tRNA function of SsrA contributes to controlling repression of bacteriophage Mu prophage.Packaging specific segments of the Salmonella chromosome with locked-in Mud-P22 prophages.Lethal transposition of Mud phages in Rec- strains of Salmonella typhimuriumA new glnA-linked regulatory gene for glutamine synthetase in Escherichia coli.Mutable R-navajo alleles of cyclic origin in maize.The a2m(r-Pa-Pu) Allele of the En-Controlling Element System in MaizeEscherichia coli K-12 auxotrophs induced by insertion of the transposable element Tn5.Gene fusionsMolecular biology of bacteriophage mu.Additive recombination in bacteria.Mapping of insertion mutations in gnd of Escherichia coli with deletions defining the ends of the gene.Inversion induced by temperature bacteriophage mu-1 in the chromosome of Escherichia coli K-12.Isolation of ara-lac gene fusions in Salmonella typhimurium LT2 by using transducing bacteriophage Mu d (Apr lac).Mu insertions are repaired by the double-strand break repair pathway of Escherichia coliHandoff from recombinase to replisome: insights from transpositionBarbara McClintock and the discovery of jumping genes.Space, time, and host evolution facilitate coexistence of competing bacteriophages: theory and experiment.Expression of ribosomal protein genes as analyzed by bacteriophage Mu-induced mutations.Resistance to colicins E3 and K induced by infection with bacteriophage f1.THE BACTERIOCINS.Insertion sites and the terminal nucleotide sequences of the Tn4 transposon.The early promoter of bacteriophage Mu: definition of the site of transcript initiationTransposable Phage MuMutants of Escherichia coli altered in both genes coding for the elongation factor Tu.Mechanism of phage Mu-1 integration: nalidixic acid treatment causes clustering of Mu-1-induced mutations near replication origin.My life with MuFrameshift mutations in the bacteriophage Mu repressor gene can confer a trans-dominant virulent phenotype to the phageMini-D3112 bacteriophage transposable elements for genetic analysis of Pseudomonas aeruginosa.Lysogenization of Escherichia coli him+, himA, and himD hosts by bacteriophage Mu.Genetic mapping of Vibrio cholerae enterotoxin structural genesControl of Klebsiella pneumoniae nif mRNA synthesisVibrio cholerae conjugative plasmid pSJ15 contains transposable prophage dVcA1.Use of bacteriophage transposon Mu d1 to determine the orientation for three proC-linked phosphate-starvation-inducible (psi) genes in Escherichia coli K-12.
P2860
Q28657639-A36A8567-F2E3-4FF9-B759-27B74C13DE6BQ28730270-E7BC6A0F-8278-4C3B-A625-98AC5A693092Q28775851-677538A3-69BA-4F08-A9FA-084F862C95DCQ33186825-C34C3BEB-6E01-4D3F-BFF0-C2A146825663Q33844394-E7A80A01-9E1F-415D-BF62-AE9E39AACBCBQ33849851-300A0D6C-8925-447D-9BA8-D359E85A9916Q33938674-937A69DA-A973-49E2-A42A-713BD5A7456FQ33943077-4C7BD9C9-3F2E-4F76-97FA-6C9A6819E88DQ33953921-44A77176-E686-496E-9427-DCA176E08EA1Q33960348-EB1941D6-17D1-4508-86B0-0CF75F97B6D3Q33975083-6522BD8F-D6B7-4158-BB67-AC1364DCD5D0Q33988685-4D2EB367-95FD-47F8-B2DA-7990852554D7Q33989497-888786B1-0897-4991-AA09-2F24ED82DB1FQ33993625-1B40353D-181B-4346-9AB3-1B12F3FCCB92Q33994743-8C300550-EB76-44A1-9D47-53438D6FA483Q34060574-3C9267FC-2664-4F98-A295-D671CF90CBD4Q34074019-D0413620-E54B-4058-88A9-7D74622B687AQ34122410-B7B847D8-854A-43BF-9EF1-0AC27EEED9AFQ34129549-53324F00-0472-4D47-AB16-A750490F3699Q34153109-80F6D7CC-61AA-41E6-8E7F-5548C910AF7CQ34236656-526C39EF-464E-4FD7-8752-C5678454D1BAQ34311648-4BAE33FE-0CED-4514-B408-AD88699D41E6Q34317362-364320F5-607A-48F6-88D5-ED639A62DBDFQ34645940-5ADF63D4-4663-448D-B040-C4A4ED612D33Q34709541-2055B972-92C5-47A8-94DA-EAE03204D019Q34743345-BECB85FA-85BA-46A0-A6D9-8B9616115E0AQ35511565-61476E14-9535-4708-8E2A-184C87AD58B1Q35519079-23781A84-FDC8-4D5D-B612-7DDC85ED150EQ35685604-2CBFFF3E-F437-41B7-93E9-DDBF220D96D9Q35801161-8103DFB8-6E05-4225-A495-EA04CD8FF456Q35991340-A25FF342-C61D-49A2-82B6-686EC3355667Q35995249-5AA54CE1-6234-4CF0-858A-E1724C670EFAQ36105886-0DC82BBA-94AB-424F-9151-E8C953EA166EQ36163678-38ADB47C-4240-43FA-9F01-6A466F1B1BA0Q36179899-8726426E-16EA-4AE9-A3B2-9FFF8210C18DQ36199685-40A80B62-23DC-41BD-9497-4121ABA6DBA0Q36295940-2FF4966A-EE77-4176-BD86-E2F340E92716Q36305811-2510DC6F-C343-4C92-A4B1-02B576E61940Q36318108-3261F443-9DAC-4C3E-85B4-745C42B42BF8Q36319426-8C99B431-E926-4DF8-ACFF-AFFD9ED8F0AE
P2860
description
1963 nî lūn-bûn
@nan
1963年の論文
@ja
1963年学术文章
@wuu
1963年学术文章
@zh-cn
1963年学术文章
@zh-hans
1963年学术文章
@zh-my
1963年学术文章
@zh-sg
1963年學術文章
@yue
1963年學術文章
@zh
1963年學術文章
@zh-hant
name
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@ast
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@en
type
label
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@ast
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@en
prefLabel
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@ast
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@en
P2860
P356
P1476
BACTERIOPHAGE-INDUCED MUTATION IN ESCHERICHIA COLI.
@en
P2093
P2860
P304
P356
10.1073/PNAS.50.6.1043
P407
P577
1963-12-01T00:00:00Z