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type 2 diabetes adaptation diabetes animal study chemotaxi neuron elegan effect subunit result nh 4cl insulin protein snp 9 expression compound analysis population rotterdam study assay association signi insulin resistance caenorhabditis elegans function subject lpin 2 gene glucose speci rotterdam caenorhabditi bargmann c.elegan wild-type animals odorant figure wild-type water osm -9 control subjects level nh 4ac allele ratio sequence pre-exposure concentration tissue snp 9c region lpin 2 snp 9c allele 25 mm naac control trunk mutation resistance interaction salt speci ®c response 100 mm naac colbert nematode caenorhabditis elegans taste process phasmid neurons taste adaptation 15 min zwaal index patient detection obesity ficant jansen compound adaptation assay identi cohort table
2 Most Recent Publications
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LPIN2 is associated with type 2 diabetes, glucose metabolism, and body composition
(Article)
Aulchenko, Y.S. Pullen, J. Sidhu, B. Smith, V.E. Carey, A. Berezikov, E. Uitterlinden, A.G. Plasterk, R.A. Oostra, B.A. Tikka-Kleemola, P. Kloosterman, W.P. Yazdanpanah, M. Hofman, A. Vaessen, N. Snijders, P.J. Zubakov, D. Mackay, I. Olavesen, M. |
2007-12-01
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The G-protein gamma subunit gpc-1 of the nematode C.elegans is involved in taste adaptation.
(Article)
Jansen, G. Weinkove, D. Plasterk, R.A. |
2002-03-01
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