SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2080617704> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W2080617704 endingPage "123" @default.
W2080617704 startingPage "109" @default.
W2080617704 abstract "The enzyme telomerase plays a crucial role in cellular proliferation. By adding hexameric repeats to the chromosome ends, it prevents telomeric loss and, thus entry into senescence of limited life span cells. It is unclear, however, what would be the effect of over-expressing telomerase in an immortalised cell line, characterised by unlimited life span and high levels of apoptosis under sub-optimal growth conditions. In order to address this question, we have transfected the immortal cell line CHO K1 with the human telomerase reverse transcriptase (hTERT) catalytic subunit. Differences in the growth profile and apoptosis levels between the cells over-expressing hTERT (Telo) and the cells containing mock vector were found under standard growth conditions. Similarly, the Telo cells showed lower levels of apoptosis, greater attachment tendency and higher viable cell density under serum-deprived conditions compared to the control cell line, suggesting a major role for hTERT over-expression in stressed cultures. Using a mouse cDNA microarray, the collagen type III and V genes were shown to have at least a 10-fold higher expression in the Telo cells than the control cells, suggesting a role of hTERT in the cell attachment pathways." @default.
W2080617704 created "2016-06-24" @default.
W2080617704 creator A5029919899 @default.
W2080617704 creator A5037097859 @default.
W2080617704 creator A5056828481 @default.
W2080617704 creator A5082775010 @default.
W2080617704 date "2006-01-01" @default.
W2080617704 modified "2023-09-23" @default.
W2080617704 title "Over-expression of hTERT in CHO K1 results in decreased apoptosis and reduced serum dependency" @default.
W2080617704 cites W1499775144 @default.
W2080617704 cites W1499999815 @default.
W2080617704 cites W1517051009 @default.
W2080617704 cites W1520658182 @default.
W2080617704 cites W1539692606 @default.
W2080617704 cites W1552282019 @default.
W2080617704 cites W1582500812 @default.
W2080617704 cites W1632349675 @default.
W2080617704 cites W1968710841 @default.
W2080617704 cites W1969399504 @default.
W2080617704 cites W1970712795 @default.
W2080617704 cites W1972100312 @default.
W2080617704 cites W1981243135 @default.
W2080617704 cites W1982085761 @default.
W2080617704 cites W1989780564 @default.
W2080617704 cites W1992238901 @default.
W2080617704 cites W1996593524 @default.
W2080617704 cites W1999900311 @default.
W2080617704 cites W2004247546 @default.
W2080617704 cites W2007298706 @default.
W2080617704 cites W2008124373 @default.
W2080617704 cites W2009169869 @default.
W2080617704 cites W2025791374 @default.
W2080617704 cites W2030490116 @default.
W2080617704 cites W2033514910 @default.
W2080617704 cites W2035499819 @default.
W2080617704 cites W2036235842 @default.
W2080617704 cites W2048287289 @default.
W2080617704 cites W2053556250 @default.
W2080617704 cites W2053620236 @default.
W2080617704 cites W2056162678 @default.
W2080617704 cites W2061829402 @default.
W2080617704 cites W2069503828 @default.
W2080617704 cites W2075808770 @default.
W2080617704 cites W2079378073 @default.
W2080617704 cites W2082291199 @default.
W2080617704 cites W2083163355 @default.
W2080617704 cites W2091399755 @default.
W2080617704 cites W2099388441 @default.
W2080617704 cites W2100311331 @default.
W2080617704 cites W2102313667 @default.
W2080617704 cites W2102734197 @default.
W2080617704 cites W2108482850 @default.
W2080617704 cites W2112736896 @default.
W2080617704 cites W2115346781 @default.
W2080617704 cites W2126243964 @default.
W2080617704 cites W2139677387 @default.
W2080617704 cites W2141095099 @default.
W2080617704 cites W2144985870 @default.
W2080617704 cites W2149826965 @default.
W2080617704 doi "https://doi.org/10.1016/j.jbiotec.2005.07.021" @default.
W2080617704 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16144725" @default.
W2080617704 hasPublicationYear "2006" @default.
W2080617704 type Work @default.
W2080617704 sameAs 2080617704 @default.
W2080617704 citedByCount "35" @default.
W2080617704 countsByYear W20806177042013 @default.
W2080617704 countsByYear W20806177042014 @default.
W2080617704 countsByYear W20806177042015 @default.
W2080617704 countsByYear W20806177042016 @default.
W2080617704 countsByYear W20806177042018 @default.
W2080617704 countsByYear W20806177042019 @default.
W2080617704 countsByYear W20806177042020 @default.
W2080617704 countsByYear W20806177042022 @default.
W2080617704 countsByYear W20806177042023 @default.
W2080617704 crossrefType "journal-article" @default.
W2080617704 hasAuthorship W2080617704A5029919899 @default.
W2080617704 hasAuthorship W2080617704A5037097859 @default.
W2080617704 hasAuthorship W2080617704A5056828481 @default.
W2080617704 hasAuthorship W2080617704A5082775010 @default.
W2080617704 hasConcept C104292427 @default.
W2080617704 hasConcept C104317684 @default.
W2080617704 hasConcept C125593758 @default.
W2080617704 hasConcept C153911025 @default.
W2080617704 hasConcept C177336024 @default.
W2080617704 hasConcept C190283241 @default.
W2080617704 hasConcept C54009773 @default.
W2080617704 hasConcept C54355233 @default.
W2080617704 hasConcept C62112901 @default.
W2080617704 hasConcept C81885089 @default.
W2080617704 hasConcept C86803240 @default.
W2080617704 hasConcept C94581717 @default.
W2080617704 hasConcept C95444343 @default.
W2080617704 hasConceptScore W2080617704C104292427 @default.
W2080617704 hasConceptScore W2080617704C104317684 @default.
W2080617704 hasConceptScore W2080617704C125593758 @default.
W2080617704 hasConceptScore W2080617704C153911025 @default.
W2080617704 hasConceptScore W2080617704C177336024 @default.
W2080617704 hasConceptScore W2080617704C190283241 @default.