SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2033714478> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2033714478 endingPage "659" @default.
W2033714478 startingPage "649" @default.
W2033714478 abstract "This review makes the case that gene discovery is a worthwhile approach to the study of ingestive behavior in general and to calcium appetite in particular. A description of the methods used to discover genes is provided for non-geneticists. Areas covered include the characterization of an appropriate phenotype, the choice of suitable mouse strains, the generation of a hybrid cross, interval mapping, congenic strain production, and candidate gene analysis. The approach is illustrated with an example involving mice of the C57BL/6J and PWK/PhJ strains, which differ in avidity for calcium solutions. The variation between the strains can be attributed to at least seven quantitative trait loci (QTLs). One of these QTLs is most likely accounted for by Tas1r3, which is a gene involved in the detection of sweet and umami tastes. The discovery of a novel function for a gene with no previously known role in calcium consumption illustrates the power of gene discovery methods to uncover novel mechanisms." @default.
W2033714478 created "2016-06-24" @default.
W2033714478 creator A5043418624 @default.
W2033714478 date "2008-08-01" @default.
W2033714478 modified "2023-09-26" @default.
W2033714478 title "Gene discovery and the genetic basis of calcium consumption" @default.
W2033714478 cites W1496676716 @default.
W2033714478 cites W1502937202 @default.
W2033714478 cites W1511210758 @default.
W2033714478 cites W1514673848 @default.
W2033714478 cites W1517221659 @default.
W2033714478 cites W1525464385 @default.
W2033714478 cites W1813360865 @default.
W2033714478 cites W1831301545 @default.
W2033714478 cites W1853215604 @default.
W2033714478 cites W1959025899 @default.
W2033714478 cites W1964200402 @default.
W2033714478 cites W1964340744 @default.
W2033714478 cites W1971753187 @default.
W2033714478 cites W1972819844 @default.
W2033714478 cites W1975023504 @default.
W2033714478 cites W1977069775 @default.
W2033714478 cites W1985590179 @default.
W2033714478 cites W1988880276 @default.
W2033714478 cites W1991197347 @default.
W2033714478 cites W1997986801 @default.
W2033714478 cites W1998843632 @default.
W2033714478 cites W2000850504 @default.
W2033714478 cites W2004264351 @default.
W2033714478 cites W2008020198 @default.
W2033714478 cites W2012841282 @default.
W2033714478 cites W2014968215 @default.
W2033714478 cites W2016818162 @default.
W2033714478 cites W2021279482 @default.
W2033714478 cites W2023608590 @default.
W2033714478 cites W2023939486 @default.
W2033714478 cites W2024011576 @default.
W2033714478 cites W2029172428 @default.
W2033714478 cites W2035812099 @default.
W2033714478 cites W2038573621 @default.
W2033714478 cites W2040516934 @default.
W2033714478 cites W2041922642 @default.
W2033714478 cites W2046732949 @default.
W2033714478 cites W2047344940 @default.
W2033714478 cites W2048278216 @default.
W2033714478 cites W2050321525 @default.
W2033714478 cites W2055467741 @default.
W2033714478 cites W2059124791 @default.
W2033714478 cites W2061250147 @default.
W2033714478 cites W2063789734 @default.
W2033714478 cites W2067466593 @default.
W2033714478 cites W2068908293 @default.
W2033714478 cites W2073115006 @default.
W2033714478 cites W2074491201 @default.
W2033714478 cites W2075458030 @default.
W2033714478 cites W2077553349 @default.
W2033714478 cites W2078982407 @default.
W2033714478 cites W2093140679 @default.
W2033714478 cites W2093241021 @default.
W2033714478 cites W2095830677 @default.
W2033714478 cites W2104053777 @default.
W2033714478 cites W2106652431 @default.
W2033714478 cites W2106856165 @default.
W2033714478 cites W2116471790 @default.
W2033714478 cites W2119368681 @default.
W2033714478 cites W2121596623 @default.
W2033714478 cites W2122060463 @default.
W2033714478 cites W2134705056 @default.
W2033714478 cites W2144036556 @default.
W2033714478 cites W2144243899 @default.
W2033714478 cites W2145360963 @default.
W2033714478 cites W2150074590 @default.
W2033714478 cites W2153839885 @default.
W2033714478 cites W2157765924 @default.
W2033714478 cites W2158628919 @default.
W2033714478 cites W2160594363 @default.
W2033714478 cites W2162462842 @default.
W2033714478 cites W2170474401 @default.
W2033714478 cites W2397594219 @default.
W2033714478 cites W2418763752 @default.
W2033714478 cites W4210580032 @default.
W2033714478 cites W4235235783 @default.
W2033714478 cites W4235953521 @default.
W2033714478 cites W4245480007 @default.
W2033714478 cites W4249590403 @default.
W2033714478 cites W2056846621 @default.
W2033714478 doi "https://doi.org/10.1016/j.physbeh.2008.04.004" @default.
W2033714478 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2574908" @default.
W2033714478 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18499198" @default.
W2033714478 hasPublicationYear "2008" @default.
W2033714478 type Work @default.
W2033714478 sameAs 2033714478 @default.
W2033714478 citedByCount "13" @default.
W2033714478 countsByYear W20337144782012 @default.
W2033714478 countsByYear W20337144782013 @default.
W2033714478 countsByYear W20337144782014 @default.
W2033714478 countsByYear W20337144782015 @default.
W2033714478 countsByYear W20337144782017 @default.