SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2622140731> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W2622140731 endingPage "301" @default.
W2622140731 startingPage "286" @default.
W2622140731 abstract "The cerebral cortex in mammals, the neocortex specifically, is highly diverse among species with respect to its size and morphology, likely reflecting the immense adaptiveness of this lineage. In particular, the pattern and number of convoluted ridges and fissures, called gyri and sulci, respectively, on the surface of the cortex are variable among species and even individuals. However, little is known about the mechanism of cortical folding, although there have been several hypotheses proposed. Recent studies on embryonic neurogenesis revealed the differences in cortical progenitors as a critical factor of the process of gyrification. Here, we investigated the gyrification processes using developing guinea pig brains that form a simple but fundamental pattern of gyri. In addition, we established an electroporation‐mediated gene transfer method for guinea pig embryos. We introduce the guinea pig brain as a useful model system to understand the mechanisms and basic principle of cortical folding." @default.
W2622140731 created "2017-06-15" @default.
W2622140731 creator A5008429849 @default.
W2622140731 creator A5033165469 @default.
W2622140731 creator A5081821746 @default.
W2622140731 date "2017-05-01" @default.
W2622140731 modified "2023-09-29" @default.
W2622140731 title "Developing guinea pig brain as a model for cortical folding" @default.
W2622140731 cites W1516412274 @default.
W2622140731 cites W1535616406 @default.
W2622140731 cites W1559643589 @default.
W2622140731 cites W1774034922 @default.
W2622140731 cites W1892641339 @default.
W2622140731 cites W1911306676 @default.
W2622140731 cites W1919125693 @default.
W2622140731 cites W1964964250 @default.
W2622140731 cites W1970756199 @default.
W2622140731 cites W1975336801 @default.
W2622140731 cites W1976414811 @default.
W2622140731 cites W1980858210 @default.
W2622140731 cites W1981575540 @default.
W2622140731 cites W1982559780 @default.
W2622140731 cites W1983938996 @default.
W2622140731 cites W1985911270 @default.
W2622140731 cites W1988183526 @default.
W2622140731 cites W1991949401 @default.
W2622140731 cites W1992502425 @default.
W2622140731 cites W1992714434 @default.
W2622140731 cites W1997073575 @default.
W2622140731 cites W2000345419 @default.
W2622140731 cites W2004075797 @default.
W2622140731 cites W2005926822 @default.
W2622140731 cites W2008987021 @default.
W2622140731 cites W2010994321 @default.
W2622140731 cites W2011524735 @default.
W2622140731 cites W2014117157 @default.
W2622140731 cites W2015964634 @default.
W2622140731 cites W2017949593 @default.
W2622140731 cites W2032850366 @default.
W2622140731 cites W2033074221 @default.
W2622140731 cites W2037661692 @default.
W2622140731 cites W2038280158 @default.
W2622140731 cites W2043204105 @default.
W2622140731 cites W2045926445 @default.
W2622140731 cites W2048163917 @default.
W2622140731 cites W2048883955 @default.
W2622140731 cites W2051680570 @default.
W2622140731 cites W2058697507 @default.
W2622140731 cites W2060631152 @default.
W2622140731 cites W2062204620 @default.
W2622140731 cites W2072710787 @default.
W2622140731 cites W2086430283 @default.
W2622140731 cites W2088814620 @default.
W2622140731 cites W2090162743 @default.
W2622140731 cites W2095680775 @default.
W2622140731 cites W2099669477 @default.
W2622140731 cites W2101795920 @default.
W2622140731 cites W2102123871 @default.
W2622140731 cites W2103960165 @default.
W2622140731 cites W2105394776 @default.
W2622140731 cites W2110300663 @default.
W2622140731 cites W2112891548 @default.
W2622140731 cites W2122384252 @default.
W2622140731 cites W2124796813 @default.
W2622140731 cites W2126161635 @default.
W2622140731 cites W2127220436 @default.
W2622140731 cites W2129010078 @default.
W2622140731 cites W2129975913 @default.
W2622140731 cites W2130434586 @default.
W2622140731 cites W2131483842 @default.
W2622140731 cites W2136875442 @default.
W2622140731 cites W2137181202 @default.
W2622140731 cites W2138537041 @default.
W2622140731 cites W2141570144 @default.
W2622140731 cites W2142484032 @default.
W2622140731 cites W2150692263 @default.
W2622140731 cites W2150806446 @default.
W2622140731 cites W2155471406 @default.
W2622140731 cites W2156768889 @default.
W2622140731 cites W2156937336 @default.
W2622140731 cites W2157662690 @default.
W2622140731 cites W2161204522 @default.
W2622140731 cites W2165918816 @default.
W2622140731 cites W2168267806 @default.
W2622140731 cites W2169786878 @default.
W2622140731 cites W2418103812 @default.
W2622140731 cites W2462100157 @default.
W2622140731 cites W2472012926 @default.
W2622140731 cites W2521106965 @default.
W2622140731 cites W2557576035 @default.
W2622140731 doi "https://doi.org/10.1111/dgd.12371" @default.
W2622140731 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28585227" @default.
W2622140731 hasPublicationYear "2017" @default.
W2622140731 type Work @default.
W2622140731 sameAs 2622140731 @default.
W2622140731 citedByCount "9" @default.
W2622140731 countsByYear W26221407312017 @default.
W2622140731 countsByYear W26221407312019 @default.