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Items: 1 to 20 of 21

1.

Dietary supplementation with strawberry induces marked changes in the composition and functional potential of the gut microbiome in diabetic mice.

Petersen C, Wankhade UD, Bharat D, Wong K, Mueller JE, Chintapalli SV, Piccolo BD, Jalili T, Jia Z, Symons JD, Shankar K, Anandh Babu PV.

J Nutr Biochem. 2019 Jan 18;66:63-69. doi: 10.1016/j.jnutbio.2019.01.004. [Epub ahead of print]

PMID:
30771735
2.

Sex-Specific Changes in Gut Microbiome Composition following Blueberry Consumption in C57BL/6J Mice.

Wankhade UD, Zhong Y, Lazarenko OP, Chintapalli SV, Piccolo BD, Chen JR, Shankar K.

Nutrients. 2019 Feb 1;11(2). pii: E313. doi: 10.3390/nu11020313.

3.

Maternal High-Fat Diet Programs Offspring Liver Steatosis in a Sexually Dimorphic Manner in Association with Changes in Gut Microbial Ecology in Mice.

Wankhade UD, Zhong Y, Kang P, Alfaro M, Chintapalli SV, Piccolo BD, Mercer KE, Andres A, Thakali KM, Shankar K.

Sci Rep. 2018 Nov 7;8(1):16502. doi: 10.1038/s41598-018-34453-0.

4.

Liver tumorigenesis is promoted by a high saturated-fat diet specifically in male mice and is associated with hepatic expression of the proto-oncogene Agap2 and enrichment of the intestinal microbiome with Coprococcus.

Pedersen KB, Pulliam CF, Patel A, Del Piero F, Watanabe TTN, Wankhade UD, Shankar K, Hicks C, Ronis MJ.

Carcinogenesis. 2018 Oct 16. doi: 10.1093/carcin/bgy141. [Epub ahead of print]

PMID:
30325408
5.

TGF-β receptor 1 regulates progenitors that promote browning of white fat.

Wankhade UD, Lee JH, Dagur PK, Yadav H, Shen M, Chen W, Kulkarni AB, McCoy JP, Finkel T, Cypess AM, Rane SG.

Mol Metab. 2018 Oct;16:160-171. doi: 10.1016/j.molmet.2018.07.008. Epub 2018 Jul 27.

6.

Diabetes-associated alterations in the cecal microbiome and metabolome are independent of diet or environment in the UC Davis Type 2 Diabetes Mellitus Rat model.

Piccolo BD, Graham JL, Stanhope KL, Nookaew I, Mercer KE, Chintapalli SV, Wankhade UD, Shankar K, Havel PJ, Adams SH.

Am J Physiol Endocrinol Metab. 2018 Nov 1;315(5):E961-E972. doi: 10.1152/ajpendo.00203.2018. Epub 2018 Jul 17.

PMID:
30016149
7.

Cecal versus fecal microbiota in Ossabaw swine and implications for obesity.

Panasevich MR, Wankhade UD, Chintapalli SV, Shankar K, Rector RS.

Physiol Genomics. 2018 May 1;50(5):355-368. doi: 10.1152/physiolgenomics.00110.2017. Epub 2018 Mar 9.

PMID:
29521600
8.

Dynamic assessment of microbial ecology (DAME): a web app for interactive analysis and visualization of microbial sequencing data.

Piccolo BD, Wankhade UD, Chintapalli SV, Bhattacharyya S, Chunqiao L, Shankar K.

Bioinformatics. 2018 Mar 15;34(6):1050-1052. doi: 10.1093/bioinformatics/btx686.

9.

High-fat, high-fructose, high-cholesterol feeding causes severe NASH and cecal microbiota dysbiosis in juvenile Ossabaw swine.

Panasevich MR, Meers GM, Linden MA, Booth FW, Perfield JW 2nd, Fritsche KL, Wankhade UD, Chintapalli SV, Shankar K, Ibdah JA, Rector RS.

Am J Physiol Endocrinol Metab. 2018 Jan 1;314(1):E78-E92. doi: 10.1152/ajpendo.00015.2017. Epub 2017 Sep 12.

10.

Soy compared with milk protein in a Western diet changes fecal microbiota and decreases hepatic steatosis in obese OLETF rats.

Panasevich MR, Schuster CM, Phillips KE, Meers GM, Chintapalli SV, Wankhade UD, Shankar K, Butteiger DN, Krul ES, Thyfault JP, Rector RS.

J Nutr Biochem. 2017 Aug;46:125-136. doi: 10.1016/j.jnutbio.2017.05.004. Epub 2017 May 31.

11.

Enhanced offspring predisposition to steatohepatitis with maternal high-fat diet is associated with epigenetic and microbiome alterations.

Wankhade UD, Zhong Y, Kang P, Alfaro M, Chintapalli SV, Thakali KM, Shankar K.

PLoS One. 2017 Apr 17;12(4):e0175675. doi: 10.1371/journal.pone.0175675. eCollection 2017.

12.

Flow Cytometry Assisted Isolation of Adipose Tissue Derived Stem Cells.

Wankhade UD, Rane SG.

Methods Mol Biol. 2017;1566:17-24. doi: 10.1007/978-1-4939-6820-6_3.

PMID:
28244037
13.

Novel Browning Agents, Mechanisms, and Therapeutic Potentials of Brown Adipose Tissue.

Wankhade UD, Shen M, Yadav H, Thakali KM.

Biomed Res Int. 2016;2016:2365609. doi: 10.1155/2016/2365609. Epub 2016 Dec 25. Review.

14.

Persistent influence of maternal obesity on offspring health: Mechanisms from animal models and clinical studies.

Wankhade UD, Thakali KM, Shankar K.

Mol Cell Endocrinol. 2016 Nov 5;435:7-19. doi: 10.1016/j.mce.2016.07.001. Epub 2016 Jul 5. Review.

PMID:
27392497
15.

Gut microbiota are linked to increased susceptibility to hepatic steatosis in low-aerobic-capacity rats fed an acute high-fat diet.

Panasevich MR, Morris EM, Chintapalli SV, Wankhade UD, Shankar K, Britton SL, Koch LG, Thyfault JP, Rector RS.

Am J Physiol Gastrointest Liver Physiol. 2016 Jul 1;311(1):G166-79. doi: 10.1152/ajpgi.00065.2016. Epub 2016 Jun 10.

16.

Advances in Adipose-Derived Stem Cells Isolation, Characterization, and Application in Regenerative Tissue Engineering.

Wankhade UD, Shen M, Kolhe R, Fulzele S.

Stem Cells Int. 2016;2016:3206807. doi: 10.1155/2016/3206807. Epub 2016 Feb 11. Review.

17.

Transforming growth factor-β3 (TGF-β3) knock-in ameliorates inflammation due to TGF-β1 deficiency while promoting glucose tolerance.

Hall BE, Wankhade UD, Konkel JE, Cherukuri K, Nagineni CN, Flanders KC, Arany PR, Chen W, Rane SG, Kulkarni AB.

J Biol Chem. 2013 Nov 1;288(44):32074-92. doi: 10.1074/jbc.M113.480764. Epub 2013 Sep 20.

18.

Two single nucleotide polymorphisms in the human nescient helix-loop-helix 2 (NHLH2) gene reduce mRNA stability and DNA binding.

Al Rayyan N, Wankhade UD, Bush K, Good DJ.

Gene. 2013 Jan 1;512(1):134-42. doi: 10.1016/j.gene.2012.09.068. Epub 2012 Sep 28.

19.

Melanocortin 4 receptor is a transcriptional target of nescient helix-loop-helix-2.

Wankhade UD, Good DJ.

Mol Cell Endocrinol. 2011 Jul 20;341(1-2):39-47. doi: 10.1016/j.mce.2011.05.022. Epub 2011 Jun 1.

20.

Deletion of Nhlh2 results in a defective torpor response and reduced Beta adrenergic receptor expression in adipose tissue.

Wankhade UD, Vella KR, Fox DL, Good DJ.

PLoS One. 2010 Aug 23;5(8):e12324. doi: 10.1371/journal.pone.0012324.

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