SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4328129741> ?p ?o ?g. }

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

W4328129741 endingPage "384" @default.
W4328129741 startingPage "384" @default.
W4328129741 abstract "The effect of extracellular matrix (ECM) stiffness on embryonic trophoblast cells invasion during mammalian embryo implantation remains largely unknown. In this study, we investigated the effects of ECM stiffness on various aspects of human trophoblast cell behaviors during cell–ECM interactions. The mechanical microenvironment of the uterus was simulated by fabricating polyacrylamide (PA) hydrogels with different levels of stiffness. The human choriocarcinoma (JAR) cell lineage was used as the trophoblast model. We found that the spreading area of JAR cells, the formation of focal adhesions, and the polymerization of the F-actin cytoskeleton were all facilitated with increased ECM stiffness. Significantly, JAR cells also exhibited durotactic behavior on ECM with a gradient stiffness. Meanwhile, stiffness of the ECM affects the invasion of multicellular JAR spheroids. These results demonstrated that human trophoblast cells are mechanically sensitive, while the mechanical properties of the uterine microenvironment could play an important role in the implantation process." @default.
W4328129741 created "2023-03-22" @default.
W4328129741 creator A5003642180 @default.
W4328129741 creator A5005243782 @default.
W4328129741 creator A5005727646 @default.
W4328129741 creator A5022868420 @default.
W4328129741 creator A5041498647 @default.
W4328129741 creator A5050444232 @default.
W4328129741 creator A5061313869 @default.
W4328129741 creator A5086237368 @default.
W4328129741 date "2023-03-21" @default.
W4328129741 modified "2023-10-14" @default.
W4328129741 title "Stiff Extracellular Matrix Promotes Invasive Behaviors of Trophoblast Cells" @default.
W4328129741 cites W1495075494 @default.
W4328129741 cites W1973089587 @default.
W4328129741 cites W1975083049 @default.
W4328129741 cites W1980193327 @default.
W4328129741 cites W1990069138 @default.
W4328129741 cites W1993866784 @default.
W4328129741 cites W2004554066 @default.
W4328129741 cites W2005449334 @default.
W4328129741 cites W2009356069 @default.
W4328129741 cites W2011091860 @default.
W4328129741 cites W2016980021 @default.
W4328129741 cites W2024250498 @default.
W4328129741 cites W2026211660 @default.
W4328129741 cites W2057989196 @default.
W4328129741 cites W2065890885 @default.
W4328129741 cites W2074572112 @default.
W4328129741 cites W2076119199 @default.
W4328129741 cites W2089300790 @default.
W4328129741 cites W2092673770 @default.
W4328129741 cites W2095687368 @default.
W4328129741 cites W2115435274 @default.
W4328129741 cites W2123982689 @default.
W4328129741 cites W2130140895 @default.
W4328129741 cites W2142817949 @default.
W4328129741 cites W2143474398 @default.
W4328129741 cites W2144662988 @default.
W4328129741 cites W2146337514 @default.
W4328129741 cites W2148328620 @default.
W4328129741 cites W2150793452 @default.
W4328129741 cites W2154743178 @default.
W4328129741 cites W2164992344 @default.
W4328129741 cites W2165642605 @default.
W4328129741 cites W2169302665 @default.
W4328129741 cites W2187828688 @default.
W4328129741 cites W2284842043 @default.
W4328129741 cites W2299128613 @default.
W4328129741 cites W2410575560 @default.
W4328129741 cites W2415012192 @default.
W4328129741 cites W2517856915 @default.
W4328129741 cites W2518274175 @default.
W4328129741 cites W2546875369 @default.
W4328129741 cites W2582174445 @default.
W4328129741 cites W2735307412 @default.
W4328129741 cites W2799885029 @default.
W4328129741 cites W2809498605 @default.
W4328129741 cites W2810878132 @default.
W4328129741 cites W2884321875 @default.
W4328129741 cites W2909951354 @default.
W4328129741 cites W2949673162 @default.
W4328129741 cites W2955680264 @default.
W4328129741 cites W2957817179 @default.
W4328129741 cites W2990482928 @default.
W4328129741 cites W3002782139 @default.
W4328129741 cites W3006092621 @default.
W4328129741 cites W3011344777 @default.
W4328129741 cites W3014306258 @default.
W4328129741 cites W3014453248 @default.
W4328129741 cites W3016089412 @default.
W4328129741 cites W3110244309 @default.
W4328129741 cites W3122144254 @default.
W4328129741 cites W3152910626 @default.
W4328129741 cites W3165712529 @default.
W4328129741 cites W3187598171 @default.
W4328129741 cites W3192711981 @default.
W4328129741 cites W3205414762 @default.
W4328129741 cites W4200347776 @default.
W4328129741 cites W4200431799 @default.
W4328129741 cites W4206160645 @default.
W4328129741 cites W4284989290 @default.
W4328129741 doi "https://doi.org/10.3390/bioengineering10030384" @default.
W4328129741 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36978775" @default.
W4328129741 hasPublicationYear "2023" @default.
W4328129741 type Work @default.
W4328129741 citedByCount "2" @default.
W4328129741 countsByYear W43281297412023 @default.
W4328129741 crossrefType "journal-article" @default.
W4328129741 hasAuthorship W4328129741A5003642180 @default.
W4328129741 hasAuthorship W4328129741A5005243782 @default.
W4328129741 hasAuthorship W4328129741A5005727646 @default.
W4328129741 hasAuthorship W4328129741A5022868420 @default.
W4328129741 hasAuthorship W4328129741A5041498647 @default.
W4328129741 hasAuthorship W4328129741A5050444232 @default.
W4328129741 hasAuthorship W4328129741A5061313869 @default.
W4328129741 hasAuthorship W4328129741A5086237368 @default.
W4328129741 hasBestOaLocation W43281297411 @default.