ライフサイエンスコーパス: lysogenic

1 ependent upon infection mode, be it lytic or lysogenic.

2 al hosts temperate phages must chose between lysogenic and lytic developmental strategies.

3 There is a bistable switch between lysogenic and lytic growth that is orchestrated by the C

4 5 encodes DNA methyltransferases in both the lysogenic and replication modules within its genome.

5 obiomes with different numbers of temperate (lysogenic) and virulent (obligate lytic) phage species.

6 her temperate phages, in laboratory culture, lysogenic bacteria are protected from killing by the pha

7 acterial filamentation and initiate lysis in lysogenic bacteria corroborates the hypothesis that the

8 Treatment of lysogenic bacteria with this compound resulted in lysis

9 morphology in E. coli and initiates lysis in lysogenic bacteria.

10 etically diverse lineages of phage-carrying (lysogenic) bacteria.

11 by two proteins (PblA and PblB) encoded by a lysogenic bacteriophage (SM1).

12 haryngeal cells resulted in the induction of lysogenic bacteriophage as well as the phage-associated

13 dence suggests that salt stress induces this lysogenic bacteriophage by interfering with 434 represso

14 phiSa3ms, a lysogenic bacteriophage encoding the staphylococcal ente

15 The lysogenic bacteriophage MAV1 has been shown to be a viru

16 The lysogenic bacteriophage MAV1, which is associated with t

17 The role lysogenic bacteriophage play in the pathogenesis of the

18 s mediated in part by a lysin encoded by the lysogenic bacteriophage SM1.

19 in demonstrated it to be encoded by the same lysogenic bacteriophage which harbors speC.

20 CTXphi is a filamentous, lysogenic bacteriophage whose genome encodes cholera tox

21 solate of Vibrio cholerae O139 a filamentous lysogenic bacteriophage, choleraphage 493, which inhibit

22 olera, is only pathogenic when it contains a lysogenic bacteriophage, CTXphi, that encodes the toxin

23 indicate that PblA and PblB are encoded by a lysogenic bacteriophage, which could facilitate the diss

24 Lysogenic bacteriophages are major vehicles for the tran

25 Lysogenic bacteriophages may encode enzymes that modify

26 rica, and Vibrio cholerae, are infected with lysogenic bacteriophages that contribute significantly t

27 Lysogenic bacteriophages therefore play a crucial role i

28 the International Space Station for dormant (lysogenic) bacteriophages.

29 ctors were delivered to the cytoplasm of non-lysogenic C. diphtheriae, they integrated into either th

30 Dormant prophages protect lysogenic cells by expressing diverse immune systems, wh

31 lytic genes and extends the time window for lysogenic commitment, resulting in a higher frequency of

32 represses expression of Shiga toxin 1 under lysogenic conditions through direct interactions with th

33 involved in DNA metabolism, integration, and lysogenic control.

34 ain-containing proteins possibly involved in lysogenic control.

35 by using animal models, we demonstrated that lysogenic conversion can take place in the mouse respira

36 rvival and pathogenicity of their hosts, via lysogenic conversion factors, and in nutrient redistribu

37 cCD phenocopies, so GamL and Agt are part of lysogenic conversion.

38 ither a lytic cycle that kills the host or a lysogenic cycle as a stable prophage.

39 s"-prophage pathosystem, which maintains the lysogenic cycle in Asian citrus psyllid Diaphorina citri

40 e host cells are abundant) but switch to the lysogenic cycle later (when susceptible cells become sca

41 In its normal lysogenic cycle, AAV integrates at a site on human chrom

42 rred to as phages) enter either a lytic or a lysogenic cycle.

43 age-adhesion and pathogenicity, and (3) CLso-lysogenic cycle.

44 s and replicate with bacterial hosts via the lysogenic cycle.

45 to decide either to follow the lytic or the lysogenic cycle.

46 enes, indicating its potential to involve in lysogenic cycle.

47 hereas it remains the same during the entire lysogenic cycle.

48 tion of the BTP1 phage O-antigen receptor in lysogenic D23580, and thereby prevents superinfection by

49 The lytic-lysogenic decision in bacteriophage 186 is governed by t

50 eeded to understand the drivers of the lytic-lysogenic decision in viral communities and to test mode

51 a wild-type R17 operator site and undergoes lysogenic development following infection of susceptible

52 22R17, an RNA challenge phage that undergoes lysogenic development in bacterial cells that express th

53 However, the sigE gene was required for lysogenic development of the temperate cyanophage A-4L.

54 nes the phage's choice between the lytic and lysogenic development pathways.

55 During both lytic and lysogenic development, Mx8 expresses a nonessential DNA

56 temperate lambdoid bacteriophage P22 to the lysogenic developmental pathway.

57 at the same relative location as CUS-1; both lysogenic E. coli and Y. pestis strains produce particle

58 romosome, transgenes can be moved into other lysogenic E. coli strains using standard phage-mediated

59 enerality of this prediction, we examined 10 lysogenic Escherichia coli from natural populations.

60 hage stability but also is a requirement for lysogenic establishment.

61 ther of the developmental pathways (lytic or lysogenic) expected of a lambda virion.

62 en the vegetative lytic fate and the dormant lysogenic fate.

63 a key decision between two states: lytic and lysogenic fate.

64 f V. mimicus for the presence of CTXPhi, the lysogenic filamentous bacteriophage that carries the cho

65 CTXphi is a lysogenic filamentous bacteriophage that encodes cholera

66 regulated pilus, which is encoded by another lysogenic filamentous bacteriophage, VPIPhi, was also pr

67 the genome of CTXphi, a V. cholerae-specific lysogenic filamentous bacteriophage.

68 CTXphi is a lysogenic, filamentous bacteriophage.

69 that these mutants, for lack of poly P, are lysogenic for P1 and when infected with phage P1 produce

70 B. subtilis 168 strains that are lysogenic for the SPbeta bacteriophage produce sublancin

71 sultant ampicillin-resistant E. coli strains lysogenic for these phages produced infectious H-19B par

72 gy introduced by Kelly to derive the optimal lysogenic fraction of the total population of phages as

73 lates Cas9 degradation for protection of the lysogenic genome.

74 During lysogenic growth many temperate bacteriophage genomes ar

75 switch' enables the phage to transition from lysogenic growth to lytic development when triggered by

76 ns at key loci controlling host recognition, lysogenic growth, and possibly host phenotypic modificat

77 ich in viral functions required in lytic and lysogenic growth, as well as unexpected functions such a

78 ut down expression of its lytic genes during lysogenic growth.

79 ate phages and distinguish between lytic and lysogenic host infections.

80 enes that provide a fitness advantage to the lysogenic host.

81 ally in the course of cell division by their lysogenic hosts.

82 ic, causing destruction of the host cell, or lysogenic, in which the viral genome is instead stably m

83 Lysogenic induction ends the stable association between

84 on, CBASS blocks lytic phage replication and lysogenic induction, but rare phages evade CBASS through

85 es indiscriminate immunity both to lytic and lysogenic infection by temperate phages-compromising the

86 We observed that lysogenic infection of Pseudomonas aeruginosa PA14 with

87 morphology, toxin production, and lytic and lysogenic infection profiles on O157 and non-O157 seroty

88 omicrobiota), suggesting the significance of lysogenic infection strategies in Antarctic soils.

89 cholerae acquired its cholera toxin genes by lysogenic infection with the filamentous bacteriophage C

90 pelagiphages to propagate by both lytic and lysogenic infection.

91 e, temperate bacteriophages opt for dormant (lysogenic) infection.

92 drying incubation, indicating an increase in lysogenic infections.

93 n sources and provide a fitness advantage to lysogenic invader lineages.

94 type of the phage infection cycle (lytic or lysogenic) is determined by the ambient temperature.

95 Two Bacillus subtilis lysogenic libraries were probed by an antibody specific

96 genomes of bacteriophages adopting a pseudo-lysogenic life cycle.

97 r establishment and termination of the viral lysogenic life cycle.

98 ages are unusual predators because many have lysogenic life cycles.

99 bacteria exploit the alternative dormant or "lysogenic" life cycle of temperate phages to establish C

100 The low abundance of genes related to lysogenic lifestyle (<3%) does not support a predominanc

101 To establish a lysogenic lifestyle, the temperate bacteriophage phiC31

102 lts, transcriptional regulation for lambda's lysogenic/lytic switch includes both activation and repr

103 elieved to be regulated by two proteins; the lysogenic maintenance promoting protein CI and the early

104 original host to either inefficient lytic or lysogenic on an alternative host.

105 anism for development of Mu along either the lysogenic or lytic pathway.

106 following infection of a sensitive host: the lysogenic or the lytic life cycle.

107 ors acting on the lytic (P(L) and P(R) ) and lysogenic (P(RM) ) promoters, referred to as the Genetic

108 The fraction of infected cells selecting the lysogenic pathway at different phage:cell ratios, predic

109 a coli cell, after which either a lytic or a lysogenic pathway is followed, resulting in different ce

110 cycle, irrespective of whether the lytic or lysogenic pathway is followed; hence, cell-fate decision

111 (MOI) greatly shifts the decision toward the lysogenic pathway.

112 lar viral DNA diverges between the lytic and lysogenic pathways from the early phase of the infection

113 pelagiphages are a rare example of cultured lysogenic phage that can be implicated in ecological pro

114 within fnbA and fnbB, (iv) the presence of a lysogenic phage within hlb, and (v) the sizes of the res

115 the bacterial population, in which lytic and lysogenic phage-plasmids coexist.

116 nto the chromosomes of bacterial hosts (like lysogenic phages or transposons).

117 the combination of stx2 alleles (carried on lysogenic phages) and/or the amount of Stx2 made by that

118 Temperate phages (or lysogenic phages) can integrate their phage genomes into

119 proteins resembling structural components of lysogenic phages.

120 ous brown algae have a circular genome and a lysogenic phase in their life cycle.

121 ypes 3, 4, and 24) that differed only by the lysogenic presence of the MM1-1998 phage and did a pheno

122 s known already to enhance repression at the lysogenic promoter PRM, located at OR.

123 sting that the role of alphaCTD at the three lysogenic promoters may be different.

124 The above results were obtained with a lysogenic recipient strain which represses expression of

125 provide a molecular basis for understanding lysogenic regulation in 186.

126 Lysogenic-related and gene transfer agent-related genes

127 Purified Mu lysogenic repressor (c) also bound to Pm, overlapping th

128 e tail protein of the biologically unrelated lysogenic salmonella phage P22.

129 The lysogenic siphophage varphi11 infects S. aureus SA113.

130 One natural isolate of M. xanthus, the lysogenic source of related phage Mx81, produces a restr

131 Surprisingly, both lytic and lysogenic Spn1 genes were expressed under routine growth

132 d that it affords increased stability to the lysogenic state in response to environmental variations.

133 Stability and induction of the lysogenic state of bacteriophage lambda are balanced by

134 The lysogenic state of bacteriophage lambda is exceptionally

135 The lysogenic state of bacteriophage lambda is maintained by

136 The lysogenic state of phage lambda is maintained by the CI

137 Here we analyze the stability of the lysogenic state of phage lambda.

138 , Stk may be produced by the prophage in the lysogenic state, and, like the YpkA protein of Yersinia

139 ession of the lytic genes, allowing a stable lysogenic state, by binding cooperatively to six operato

140 In the lysogenic state, CI represses the expression of the lyti

141 In the lysogenic state, the CI repressor positively regulates i

142 and thereby to preserve the integrity of the lysogenic state.

143 lambda and following the establishment of a lysogenic state.

144 omosome either to establish or exit from the lysogenic state.

145 n two stable states, the lytic state and the lysogenic state.

146 or copy number; (2) P1 transduction from the lysogenic strain into an appropriate recipient generates

147 Here, a DeltaS-cin Deltapac E. coli P1 lysogenic strain was generated to allow packaging of pha

148 recombinant systems, specifically in PhiE125 lysogenic strains of B. mallei and Burkholderia thailand

149 ria toxin (DT), a 58 kDa protein secreted by lysogenic strains of Corynebacterium diphtheriae, causes

150 toxin (DT) is a 58 kDa protein, secreted by lysogenic strains of Corynebacterium diphtheriae, that c

151 ces disrupting ffs could only be detected in lysogenic strains of E. faecalis.

152 inated by purely virulent or dormant (purely lysogenic) strategies.

153 tilize antitermination to regulate the lytic/lysogenic switch and our results demonstrate that short

154 egative host density dependence to the lytic-lysogenic switch.

155 ls of the host density-dependent viral lytic-lysogenic switch.

156 mechanism of control for the phiSa3ms lytic-lysogenic switch.

157 If lysogenic, this phage was maintained extrachromosomally

158 pathogens can produce metabolites triggering lysogenic to lytic conversion in a prophage-selective ma

159 ressor, a dimeric protein that regulates the lysogenic to lytic genetic switch of the phage.

160 The key event in the switch from lysogenic to lytic growth of phage lambda is the self-cl

161 gulatory systems determine the switch from a lysogenic to lytic life style, but so far strategies are

162 During induction from the lysogenic to lytic state, CI is inactivated, and the two

163 of the cro gene might be unimportant for the lysogenic to lytic switch during induction of the lambda

164 inosa deploys a trigger factor to hijack the lysogenic to lytic switch of a polylysogenic Staphylococ

165 and O(L)) of the phage genome to control the lysogenic to lytic switch.

166 cI, is specifically cleaved to initiate the lysogenic-to-lytic switch.

167 her than diverging into lytic (virulent) and lysogenic trajectories.

168 and new ones, for CI regulation of lytic and lysogenic transcription.

169 mbda repressor (CI) maintains the quiescent (lysogenic) transcriptome of bacteriophage lambda in infe

170 wild-type temperate phages (which can become lysogenic), type I CRISPR-Cas immune systems cannot elim