SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4295539639> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4295539639 endingPage "1406" @default.
W4295539639 startingPage "1406" @default.
W4295539639 abstract "The main problem with using MSC (mesenchymal stem cells) to treat the deficient diseases of the central nervous system is the low cell survival rate after the transplant procedure and their low ability to spontaneously differentiate into functional neurons. The aim of this study was to investigate the effects of genetically modifying MSC. A co-overexpression of two genes was performed: BCLXL was supposed to increase the resistance of the cells to the toxic agents and BDNF was supposed to direct cells into the neuronal differentiation pathway. As a result, it was possible to obtain the functional overexpression of the BCLXL and BDNF genes. These cells had an increased resistance to apoptosis-inducing toxicants (staurosporine, doxorubicin and H2O2). At the same time, the genes of the neuronal pathway (CHAT, TPH1) were overexpressed. The genetically modified MSC increased the survival rate under toxic conditions, which increased the chance of surviving a transplant procedure. The obtained cells can be treated as neural cell progenitors, which makes them a universal material that can be used in various disease models. The production of neurotransmitters suggests that cells transplanted into the brain and subjected to the additional influence of the brain’s microenvironment, will be able to form synapses and become functional neurons." @default.
W4295539639 created "2022-09-14" @default.
W4295539639 creator A5006044543 @default.
W4295539639 creator A5027269949 @default.
W4295539639 creator A5028395075 @default.
W4295539639 creator A5029521959 @default.
W4295539639 creator A5031999229 @default.
W4295539639 date "2022-09-09" @default.
W4295539639 modified "2023-10-14" @default.
W4295539639 title "Survival and Neurogenesis-Promoting Effects of the Co-Overexpression of BCLXL and BDNF Genes on Wharton’s Jelly-Derived Mesenchymal Stem Cells" @default.
W4295539639 cites W1773217809 @default.
W4295539639 cites W1791183093 @default.
W4295539639 cites W1972851813 @default.
W4295539639 cites W1974476511 @default.
W4295539639 cites W1974834574 @default.
W4295539639 cites W1978138384 @default.
W4295539639 cites W1979001022 @default.
W4295539639 cites W1990461254 @default.
W4295539639 cites W1991806275 @default.
W4295539639 cites W199266805 @default.
W4295539639 cites W1993640536 @default.
W4295539639 cites W1997312851 @default.
W4295539639 cites W1998460584 @default.
W4295539639 cites W2001424458 @default.
W4295539639 cites W2008257078 @default.
W4295539639 cites W2010498064 @default.
W4295539639 cites W2023462778 @default.
W4295539639 cites W2048821283 @default.
W4295539639 cites W2054771768 @default.
W4295539639 cites W2073973240 @default.
W4295539639 cites W2075992165 @default.
W4295539639 cites W2076104235 @default.
W4295539639 cites W2076524959 @default.
W4295539639 cites W2082549804 @default.
W4295539639 cites W2086226716 @default.
W4295539639 cites W2121651624 @default.
W4295539639 cites W2123504406 @default.
W4295539639 cites W2139922386 @default.
W4295539639 cites W2140202284 @default.
W4295539639 cites W2143285033 @default.
W4295539639 cites W2148072094 @default.
W4295539639 cites W2156969855 @default.
W4295539639 cites W2161820725 @default.
W4295539639 cites W2161857065 @default.
W4295539639 cites W2170455856 @default.
W4295539639 cites W2175835252 @default.
W4295539639 cites W2218476428 @default.
W4295539639 cites W2543278732 @default.
W4295539639 cites W2619544969 @default.
W4295539639 cites W2744288715 @default.
W4295539639 cites W2751229508 @default.
W4295539639 cites W2751272566 @default.
W4295539639 cites W2754998223 @default.
W4295539639 cites W2883350768 @default.
W4295539639 cites W2885248803 @default.
W4295539639 cites W2885729195 @default.
W4295539639 cites W2898465012 @default.
W4295539639 cites W2901719405 @default.
W4295539639 cites W2912169832 @default.
W4295539639 cites W2914837082 @default.
W4295539639 cites W2937891363 @default.
W4295539639 cites W2955544437 @default.
W4295539639 cites W2967243286 @default.
W4295539639 cites W2971887869 @default.
W4295539639 cites W2986805274 @default.
W4295539639 cites W2988243385 @default.
W4295539639 cites W2988721710 @default.
W4295539639 cites W2990129523 @default.
W4295539639 cites W2993544712 @default.
W4295539639 cites W3013288504 @default.
W4295539639 cites W3030610227 @default.
W4295539639 cites W3031162037 @default.
W4295539639 cites W3036237811 @default.
W4295539639 cites W3046944391 @default.
W4295539639 cites W3104467474 @default.
W4295539639 cites W3119290672 @default.
W4295539639 cites W3127955211 @default.
W4295539639 cites W3136785936 @default.
W4295539639 cites W3139551563 @default.
W4295539639 cites W3176750678 @default.
W4295539639 doi "https://doi.org/10.3390/life12091406" @default.
W4295539639 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36143442" @default.
W4295539639 hasPublicationYear "2022" @default.
W4295539639 type Work @default.
W4295539639 citedByCount "2" @default.
W4295539639 countsByYear W42955396392023 @default.
W4295539639 crossrefType "journal-article" @default.
W4295539639 hasAuthorship W4295539639A5006044543 @default.
W4295539639 hasAuthorship W4295539639A5027269949 @default.
W4295539639 hasAuthorship W4295539639A5028395075 @default.
W4295539639 hasAuthorship W4295539639A5029521959 @default.
W4295539639 hasAuthorship W4295539639A5031999229 @default.
W4295539639 hasBestOaLocation W42955396391 @default.
W4295539639 hasConcept C136834591 @default.
W4295539639 hasConcept C1491633281 @default.
W4295539639 hasConcept C169760540 @default.
W4295539639 hasConcept C195794163 @default.
W4295539639 hasConcept C198826908 @default.