SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002602221> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2002602221 endingPage "7" @default.
W2002602221 startingPage "1" @default.
W2002602221 abstract "Neurologically-complex species utilize two intricately coupled information-processing systems to adapt to their social and natural environments. Action potentials (APs) facilitate rapid responses to the nearly continuous fluctuations in the animal's surroundings. By contrast, genetic encodings comprise a molecular memory of ancient adaptive responses expressed as cognitive, emotional, or behavioral phenotypes. The linking of the two systems via intracellular Ca2+ networks which address transcription factors – e.g., cAMP response element-binding protein (CREB) – is an appropriate focus for the biology of human behavior. Computational modeling utilizing Boolean networks (BNs) is a suitable qualitative method, requiring no kinetic information, for eliciting the systems’ architectural properties. In particular, BNs can reveal critical intracellular regimes of possible evolutionary significance. As a platform for future research, we propose that those networks sufficiently robust to attenuate damaging intracellular noise and deleterious mutations, yet sufficiently close to chaos to permit or amplify adaptive noise and favorable mutations, would be favored by natural selection. Critical regimes of this type would be, literally, “poised for survival”, and would stabilize and promote the survival of their correlated cultural phenotypes." @default.
W2002602221 created "2016-06-24" @default.
W2002602221 creator A5054281644 @default.
W2002602221 date "2015-04-01" @default.
W2002602221 modified "2023-09-27" @default.
W2002602221 title "Poised for survival: Criticality, natural selection, and excitation-transcription coupling" @default.
W2002602221 cites W1518876771 @default.
W2002602221 cites W1540104393 @default.
W2002602221 cites W1597217152 @default.
W2002602221 cites W1621971210 @default.
W2002602221 cites W1663648186 @default.
W2002602221 cites W186890633 @default.
W2002602221 cites W1967604241 @default.
W2002602221 cites W1971224531 @default.
W2002602221 cites W1972023389 @default.
W2002602221 cites W1973787170 @default.
W2002602221 cites W1975408537 @default.
W2002602221 cites W1977339054 @default.
W2002602221 cites W1977343522 @default.
W2002602221 cites W1978104702 @default.
W2002602221 cites W1984574127 @default.
W2002602221 cites W1985436792 @default.
W2002602221 cites W1989221124 @default.
W2002602221 cites W1993241390 @default.
W2002602221 cites W1996333756 @default.
W2002602221 cites W1997521991 @default.
W2002602221 cites W2000843844 @default.
W2002602221 cites W2001516747 @default.
W2002602221 cites W2001974377 @default.
W2002602221 cites W2008633581 @default.
W2002602221 cites W2010716608 @default.
W2002602221 cites W2011882079 @default.
W2002602221 cites W2013244831 @default.
W2002602221 cites W2013868665 @default.
W2002602221 cites W2014074363 @default.
W2002602221 cites W2015802360 @default.
W2002602221 cites W2033637309 @default.
W2002602221 cites W2036707090 @default.
W2002602221 cites W2042071353 @default.
W2002602221 cites W2042491450 @default.
W2002602221 cites W2043323223 @default.
W2002602221 cites W2044890688 @default.
W2002602221 cites W2053544091 @default.
W2002602221 cites W2053601983 @default.
W2002602221 cites W2057020332 @default.
W2002602221 cites W2059834000 @default.
W2002602221 cites W2066566245 @default.
W2002602221 cites W2067156314 @default.
W2002602221 cites W2068412840 @default.
W2002602221 cites W2073041291 @default.
W2002602221 cites W2077770566 @default.
W2002602221 cites W2081297347 @default.
W2002602221 cites W2083433785 @default.
W2002602221 cites W2092162486 @default.
W2002602221 cites W2096709995 @default.
W2002602221 cites W2099500590 @default.
W2002602221 cites W2100340154 @default.
W2002602221 cites W2105094581 @default.
W2002602221 cites W2105177503 @default.
W2002602221 cites W2106095767 @default.
W2002602221 cites W2106752295 @default.
W2002602221 cites W2111251561 @default.
W2002602221 cites W2111354353 @default.
W2002602221 cites W2115708039 @default.
W2002602221 cites W2116910808 @default.
W2002602221 cites W2119938804 @default.
W2002602221 cites W2125375538 @default.
W2002602221 cites W2133083344 @default.
W2002602221 cites W2141674392 @default.
W2002602221 cites W2142400903 @default.
W2002602221 cites W2142501768 @default.
W2002602221 cites W2143991733 @default.
W2002602221 cites W2148301354 @default.
W2002602221 cites W2148585893 @default.
W2002602221 cites W2149388478 @default.
W2002602221 cites W2152471738 @default.
W2002602221 cites W2157869647 @default.
W2002602221 cites W2158590037 @default.
W2002602221 cites W2162612000 @default.
W2002602221 cites W2165961892 @default.
W2002602221 cites W2166202334 @default.
W2002602221 cites W2167287693 @default.
W2002602221 cites W2167437179 @default.
W2002602221 cites W2337511644 @default.
W2002602221 cites W2406678331 @default.
W2002602221 cites W2903040413 @default.
W2002602221 cites W3003725138 @default.
W2002602221 cites W3020839330 @default.
W2002602221 cites W3103071483 @default.
W2002602221 cites W83374803 @default.
W2002602221 doi "https://doi.org/10.1016/j.biocel.2015.01.013" @default.
W2002602221 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25622558" @default.
W2002602221 hasPublicationYear "2015" @default.
W2002602221 type Work @default.
W2002602221 sameAs 2002602221 @default.
W2002602221 citedByCount "0" @default.
W2002602221 crossrefType "journal-article" @default.
W2002602221 hasAuthorship W2002602221A5054281644 @default.