SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017685660> ?p ?o ?g. }

Showing items 1 to 100 of ±120 with 100 items per page.

W2017685660 endingPage "e1003312" @default.
W2017685660 startingPage "e1003312" @default.
W2017685660 abstract "Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR), together with associated genes (cas), form the CRISPR–cas adaptive immune system, which can provide resistance to viruses and plasmids in bacteria and archaea. Here, we use mathematical models, population dynamic experiments, and DNA sequence analyses to investigate the host–phage interactions in a model CRISPR–cas system, Streptococcus thermophilus DGCC7710 and its virulent phage 2972. At the molecular level, the bacteriophage-immune mutant bacteria (BIMs) and CRISPR–escape mutant phage (CEMs) obtained in this study are consistent with those anticipated from an iterative model of this adaptive immune system: resistance by the addition of novel spacers and phage evasion of resistance by mutation in matching sequences or flanking motifs. While CRISPR BIMs were readily isolated and CEMs generated at high rates (frequencies in excess of 10−6), our population studies indicate that there is more to the dynamics of phage–host interactions and the establishment of a BIM–CEM arms race than predicted from existing assumptions about phage infection and CRISPR–cas immunity. Among the unanticipated observations are: (i) the invasion of phage into populations of BIMs resistant by the acquisition of one (but not two) spacers, (ii) the survival of sensitive bacteria despite the presence of high densities of phage, and (iii) the maintenance of phage-limited communities due to the failure of even two-spacer BIMs to become established in populations with wild-type bacteria and phage. We attribute (i) to incomplete resistance of single-spacer BIMs. Based on the results of additional modeling and experiments, we postulate that (ii) and (iii) can be attributed to the phage infection-associated production of enzymes or other compounds that induce phenotypic phage resistance in sensitive bacteria and kill resistant BIMs. We present evidence in support of these hypotheses and discuss the implications of these results for the ecology and (co)evolution of bacteria and phage." @default.
W2017685660 created "2016-06-24" @default.
W2017685660 creator A5055539972 @default.
W2017685660 creator A5072787023 @default.
W2017685660 creator A5079257651 @default.
W2017685660 creator A5085166852 @default.
W2017685660 date "2013-03-14" @default.
W2017685660 modified "2023-09-30" @default.
W2017685660 title "The Population and Evolutionary Dynamics of Phage and Bacteria with CRISPR–Mediated Immunity" @default.
W2017685660 cites W116448561 @default.
W2017685660 cites W1597185777 @default.
W2017685660 cites W1976778748 @default.
W2017685660 cites W1978094899 @default.
W2017685660 cites W1981069592 @default.
W2017685660 cites W1982286661 @default.
W2017685660 cites W1986171241 @default.
W2017685660 cites W1990487336 @default.
W2017685660 cites W1992213934 @default.
W2017685660 cites W1992572387 @default.
W2017685660 cites W2010986636 @default.
W2017685660 cites W2013018092 @default.
W2017685660 cites W2046737461 @default.
W2017685660 cites W2049420497 @default.
W2017685660 cites W2052856054 @default.
W2017685660 cites W2061555533 @default.
W2017685660 cites W2074862753 @default.
W2017685660 cites W2082883430 @default.
W2017685660 cites W2085436536 @default.
W2017685660 cites W2088154229 @default.
W2017685660 cites W2096162460 @default.
W2017685660 cites W2097155272 @default.
W2017685660 cites W2101727152 @default.
W2017685660 cites W2106900261 @default.
W2017685660 cites W2112295554 @default.
W2017685660 cites W2120503144 @default.
W2017685660 cites W2122773612 @default.
W2017685660 cites W2123530848 @default.
W2017685660 cites W2135598273 @default.
W2017685660 cites W2146183433 @default.
W2017685660 cites W2153537688 @default.
W2017685660 cites W2154809097 @default.
W2017685660 cites W2165011752 @default.
W2017685660 cites W2166113462 @default.
W2017685660 cites W2166139447 @default.
W2017685660 cites W2168933209 @default.
W2017685660 cites W2169244146 @default.
W2017685660 cites W2170255645 @default.
W2017685660 cites W2614283331 @default.
W2017685660 doi "https://doi.org/10.1371/journal.pgen.1003312" @default.
W2017685660 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3597502" @default.
W2017685660 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23516369" @default.
W2017685660 hasPublicationYear "2013" @default.
W2017685660 type Work @default.
W2017685660 sameAs 2017685660 @default.
W2017685660 citedByCount "153" @default.
W2017685660 countsByYear W20176856602013 @default.
W2017685660 countsByYear W20176856602014 @default.
W2017685660 countsByYear W20176856602015 @default.
W2017685660 countsByYear W20176856602016 @default.
W2017685660 countsByYear W20176856602017 @default.
W2017685660 countsByYear W20176856602018 @default.
W2017685660 countsByYear W20176856602019 @default.
W2017685660 countsByYear W20176856602020 @default.
W2017685660 countsByYear W20176856602021 @default.
W2017685660 countsByYear W20176856602022 @default.
W2017685660 countsByYear W20176856602023 @default.
W2017685660 crossrefType "journal-article" @default.
W2017685660 hasAuthorship W2017685660A5055539972 @default.
W2017685660 hasAuthorship W2017685660A5072787023 @default.
W2017685660 hasAuthorship W2017685660A5079257651 @default.
W2017685660 hasAuthorship W2017685660A5085166852 @default.
W2017685660 hasBestOaLocation W20176856601 @default.
W2017685660 hasConcept C10079403 @default.
W2017685660 hasConcept C104317684 @default.
W2017685660 hasConcept C132455925 @default.
W2017685660 hasConcept C144024400 @default.
W2017685660 hasConcept C149923435 @default.
W2017685660 hasConcept C22744801 @default.
W2017685660 hasConcept C2776441376 @default.
W2017685660 hasConcept C2908647359 @default.
W2017685660 hasConcept C54355233 @default.
W2017685660 hasConcept C547475151 @default.
W2017685660 hasConcept C86803240 @default.
W2017685660 hasConcept C98108389 @default.
W2017685660 hasConceptScore W2017685660C10079403 @default.
W2017685660 hasConceptScore W2017685660C104317684 @default.
W2017685660 hasConceptScore W2017685660C132455925 @default.
W2017685660 hasConceptScore W2017685660C144024400 @default.
W2017685660 hasConceptScore W2017685660C149923435 @default.
W2017685660 hasConceptScore W2017685660C22744801 @default.
W2017685660 hasConceptScore W2017685660C2776441376 @default.
W2017685660 hasConceptScore W2017685660C2908647359 @default.
W2017685660 hasConceptScore W2017685660C54355233 @default.
W2017685660 hasConceptScore W2017685660C547475151 @default.
W2017685660 hasConceptScore W2017685660C86803240 @default.
W2017685660 hasConceptScore W2017685660C98108389 @default.
W2017685660 hasIssue "3" @default.
W2017685660 hasLocation W20176856601 @default.