SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W920821468> ?p ?o ?g. }

Showing items 1 to 100 of ±268 with 100 items per page.

W920821468 endingPage "184" @default.
W920821468 startingPage "167" @default.
W920821468 abstract "Bacteriophages (so-called phages), viruses that infect bacteria, are the most abundant and varied biological group on the planet, with ~108 different phage species representing an estimated global population on the order of ~1031 viral particles. The field of phages as biotherapeutic agents has been rediscovered, as several experiments have demonstrated their potential for treatment of antibiotic-resistant bacteria, such as vancomycin-resistant Enterococcus faecium. In addition to the classical virulence factors described in prophages, the “genomic era” has revealed new pathogenicity factors linked to prophages. Several examples of antibiotic resistance genes spread by generalized or specialized transduction have been described. For instance, resistance to imipenem, aztreonam, and ceftazidime in Pseudomonas aeruginosa can be transduced by two phages, AP-2 and AP-12. Phages can also transduce resistance to chloramphenicol in E. coli, methicillin in Staphylococcus epidermidis, novobiocin or tetracycline in Staphylococcus aureus, or tetracycline and chloramphenicol in Actinobacillus actinomycetemcomitans. There are few examples of bacteriophages harboring antibiotic resistance genes. An interesting example is the presence of the ars operon in the skin element of Bacillus subtilis, which confers resistance to arsenate. One of the mechanisms of macrolide resistance found in streptococci is mediated by the proton-dependent efflux pump encoded by mef (A). Two main lines of research have been opened to find novel anti-infectives. The first is using lytic enzymes to weaken the bacterial cell wall of specific bacteria. The second line of research consists of using bacteriophages to design protein-like chemical compounds that arrest critical cellular processes." @default.
W920821468 created "2016-06-24" @default.
W920821468 creator A5047948657 @default.
W920821468 date "2014-04-30" @default.
W920821468 modified "2023-09-26" @default.
W920821468 title "Phage-Shaping Evolution of Bacterial Pathogenicity and Resistance" @default.
W920821468 cites W1455172052 @default.
W920821468 cites W1487939803 @default.
W920821468 cites W1534129726 @default.
W920821468 cites W1534555032 @default.
W920821468 cites W1566788745 @default.
W920821468 cites W1581257266 @default.
W920821468 cites W1581583867 @default.
W920821468 cites W1606292971 @default.
W920821468 cites W1672894881 @default.
W920821468 cites W1738835571 @default.
W920821468 cites W1836247153 @default.
W920821468 cites W1860942766 @default.
W920821468 cites W1871973308 @default.
W920821468 cites W1874972419 @default.
W920821468 cites W1910188828 @default.
W920821468 cites W1921607560 @default.
W920821468 cites W1927326587 @default.
W920821468 cites W1934542416 @default.
W920821468 cites W1963788281 @default.
W920821468 cites W1965818063 @default.
W920821468 cites W1966597734 @default.
W920821468 cites W1966791807 @default.
W920821468 cites W1967386006 @default.
W920821468 cites W1967886452 @default.
W920821468 cites W1969071924 @default.
W920821468 cites W1970752390 @default.
W920821468 cites W1971178500 @default.
W920821468 cites W1971197474 @default.
W920821468 cites W1971403296 @default.
W920821468 cites W1974185147 @default.
W920821468 cites W1974949586 @default.
W920821468 cites W1977151336 @default.
W920821468 cites W1977967488 @default.
W920821468 cites W1978863591 @default.
W920821468 cites W1979671672 @default.
W920821468 cites W1979723172 @default.
W920821468 cites W1980978090 @default.
W920821468 cites W1981653869 @default.
W920821468 cites W1982248439 @default.
W920821468 cites W1986446308 @default.
W920821468 cites W1990849633 @default.
W920821468 cites W1991805701 @default.
W920821468 cites W1992256609 @default.
W920821468 cites W1994541148 @default.
W920821468 cites W1994977520 @default.
W920821468 cites W1996576300 @default.
W920821468 cites W1998198034 @default.
W920821468 cites W1999286199 @default.
W920821468 cites W2001945908 @default.
W920821468 cites W2003788503 @default.
W920821468 cites W2004280494 @default.
W920821468 cites W2005921570 @default.
W920821468 cites W2006076492 @default.
W920821468 cites W2008088946 @default.
W920821468 cites W2009334449 @default.
W920821468 cites W2010753235 @default.
W920821468 cites W2012476696 @default.
W920821468 cites W2013735086 @default.
W920821468 cites W201727952 @default.
W920821468 cites W2018216113 @default.
W920821468 cites W2026049658 @default.
W920821468 cites W2027241702 @default.
W920821468 cites W2027799231 @default.
W920821468 cites W2028382502 @default.
W920821468 cites W2029926937 @default.
W920821468 cites W2030513019 @default.
W920821468 cites W2030640784 @default.
W920821468 cites W2033467100 @default.
W920821468 cites W2035344573 @default.
W920821468 cites W2037406626 @default.
W920821468 cites W2038559235 @default.
W920821468 cites W2039040433 @default.
W920821468 cites W2041065078 @default.
W920821468 cites W2041249082 @default.
W920821468 cites W2042091512 @default.
W920821468 cites W2042107869 @default.
W920821468 cites W2043095417 @default.
W920821468 cites W2043522409 @default.
W920821468 cites W2044477331 @default.
W920821468 cites W2044902100 @default.
W920821468 cites W2045162565 @default.
W920821468 cites W2045765967 @default.
W920821468 cites W2048413174 @default.
W920821468 cites W2049799824 @default.
W920821468 cites W2049837435 @default.
W920821468 cites W2050368796 @default.
W920821468 cites W2050783903 @default.
W920821468 cites W2053752946 @default.
W920821468 cites W2055615325 @default.
W920821468 cites W2072152013 @default.
W920821468 cites W2074515928 @default.
W920821468 cites W2078278225 @default.