SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W48264210> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W48264210 endingPage "335" @default.
W48264210 startingPage "311" @default.
W48264210 abstract "Proper platelet function is essential for hemostasis. However, understanding platelet function is complicated by the fact that platelets are anucleate and therefore not amenable to direct genetic manipulations. To study platelet function, several laboratories have developed CHO cell lines expressing platelet proteins or used megakaryocyte-like cell lines. However, these cell culture models are unable to mimic critical platelet functions, most notably agonist-induced activation of integrin alphaIIbbeta3. Mature megakaryocytes, which are platelet precursors, express platelet-specific proteins, and the function of such proteins and signaling pathways appears conserved between the two cell types. Murine megakaryocytes have been successfully differentiated in cultures from bone marrow, fetal liver, and embryonic stem (ES) cells, while human megakaryocytes have been cultured from human cord blood, peripheral blood, and ES cells. The various sources of megakaryocyte progenitors provide choices to researchers, allowing them to access the most applicable systems. As examples, both bone marrow-derived and ES cell-derived murine megakaryocytes have been used to study proteins involved in integrin alphaIIbbeta3 regulation such as CIB1 and H-Ras. Therefore, megakaryocytes have provided an invaluable resource for better understanding the biology of platelets. In this chapter, we will describe: (1) approaches to obtain, generate, and characterize megakaryocytes, (2) molecular manipulation of these cells to elevate or decrease expression levels of specific proteins, and (3) current uses and future applications of megakaryocytes." @default.
W48264210 created "2016-06-24" @default.
W48264210 creator A5011531088 @default.
W48264210 creator A5013978455 @default.
W48264210 creator A5027835055 @default.
W48264210 creator A5029725861 @default.
W48264210 creator A5042672225 @default.
W48264210 creator A5071632371 @default.
W48264210 date "2007-01-01" @default.
W48264210 modified "2023-10-14" @default.
W48264210 title "Genetic Manipulation of Megakaryocytes to Study Platelet Function" @default.
W48264210 cites W120762819 @default.
W48264210 cites W1504215273 @default.
W48264210 cites W1515792917 @default.
W48264210 cites W1531449350 @default.
W48264210 cites W1602432458 @default.
W48264210 cites W1906647772 @default.
W48264210 cites W1909440311 @default.
W48264210 cites W1963760725 @default.
W48264210 cites W1980699866 @default.
W48264210 cites W1981224897 @default.
W48264210 cites W1982403032 @default.
W48264210 cites W1986341762 @default.
W48264210 cites W1995553619 @default.
W48264210 cites W1998874514 @default.
W48264210 cites W2001274636 @default.
W48264210 cites W2001433805 @default.
W48264210 cites W2006659499 @default.
W48264210 cites W2010547112 @default.
W48264210 cites W2011563683 @default.
W48264210 cites W2016649377 @default.
W48264210 cites W2020050955 @default.
W48264210 cites W2021612396 @default.
W48264210 cites W2022177860 @default.
W48264210 cites W2026502204 @default.
W48264210 cites W2032484564 @default.
W48264210 cites W2035211879 @default.
W48264210 cites W2040379229 @default.
W48264210 cites W2041802622 @default.
W48264210 cites W2043835961 @default.
W48264210 cites W2052707672 @default.
W48264210 cites W2058575876 @default.
W48264210 cites W2060891467 @default.
W48264210 cites W2060937747 @default.
W48264210 cites W2062871139 @default.
W48264210 cites W2069965521 @default.
W48264210 cites W2071503851 @default.
W48264210 cites W2072626271 @default.
W48264210 cites W2072734944 @default.
W48264210 cites W2079892535 @default.
W48264210 cites W2089905578 @default.
W48264210 cites W2091132580 @default.
W48264210 cites W2102378371 @default.
W48264210 cites W2106117938 @default.
W48264210 cites W2108060324 @default.
W48264210 cites W2112319867 @default.
W48264210 cites W2116628453 @default.
W48264210 cites W2116853711 @default.
W48264210 cites W2122559865 @default.
W48264210 cites W2128964789 @default.
W48264210 cites W2131000203 @default.
W48264210 cites W2131943942 @default.
W48264210 cites W2135135539 @default.
W48264210 cites W2140146244 @default.
W48264210 cites W2141301124 @default.
W48264210 cites W2143531841 @default.
W48264210 cites W2148615239 @default.
W48264210 cites W2152800355 @default.
W48264210 cites W2156592202 @default.
W48264210 cites W2157573500 @default.
W48264210 cites W2161007761 @default.
W48264210 cites W2179732212 @default.
W48264210 cites W2341344091 @default.
W48264210 cites W4238068707 @default.
W48264210 cites W4239907137 @default.
W48264210 cites W4248268015 @default.
W48264210 doi "https://doi.org/10.1016/s0070-2153(07)80008-1" @default.
W48264210 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/17950378" @default.
W48264210 hasPublicationYear "2007" @default.
W48264210 type Work @default.
W48264210 sameAs 48264210 @default.
W48264210 citedByCount "4" @default.
W48264210 countsByYear W482642102016 @default.
W48264210 crossrefType "book-chapter" @default.
W48264210 hasAuthorship W48264210A5011531088 @default.
W48264210 hasAuthorship W48264210A5013978455 @default.
W48264210 hasAuthorship W48264210A5027835055 @default.
W48264210 hasAuthorship W48264210A5029725861 @default.
W48264210 hasAuthorship W48264210A5042672225 @default.
W48264210 hasAuthorship W48264210A5071632371 @default.
W48264210 hasConcept C109159458 @default.
W48264210 hasConcept C14036430 @default.
W48264210 hasConcept C1491633281 @default.
W48264210 hasConcept C195687474 @default.
W48264210 hasConcept C201750760 @default.
W48264210 hasConcept C203014093 @default.
W48264210 hasConcept C2776958478 @default.
W48264210 hasConcept C2777863708 @default.