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Items: 18

1.

Clostridial Butyrate Biosynthesis Enzymes Are Significantly Depleted in the Gut Microbiota of Nonobese Diabetic Mice.

Tanca A, Palomba A, Fraumene C, Manghina V, Silverman M, Uzzau S.

mSphere. 2018 Oct 24;3(5). pii: e00492-18. doi: 10.1128/mSphere.00492-18.

2.

Caloric restriction promotes functional changes involving short-chain fatty acid biosynthesis in the rat gut microbiota.

Tanca A, Abbondio M, Palomba A, Fraumene C, Marongiu F, Serra M, Pagnozzi D, Laconi E, Uzzau S.

Sci Rep. 2018 Oct 3;8(1):14778. doi: 10.1038/s41598-018-33100-y.

3.

Multi-Omic Biogeography of the Gastrointestinal Microbiota of a Pre-Weaned Lamb.

Palomba A, Tanca A, Fraumene C, Abbondio M, Fancello F, Atzori AS, Uzzau S.

Proteomes. 2017 Dec 18;5(4). pii: E36. doi: 10.3390/proteomes5040036.

4.

Author Correction: Lack of NLRP3-inflammasome leads to gut-liver axis derangement, gut dysbiosis and a worsened phenotype in a mouse model of NAFLD.

Pierantonelli I, Rychlicki C, Agostinelli L, Giordano DM, Gaggini M, Fraumene C, Saponaro C, Manghina V, Sartini L, Mingarelli E, Pinto C, Buzzigoli E, Trozzi L, Giordano A, Marzioni M, De Minicis S, Uzzau S, Cinti S, Gastaldelli A, Svegliati-Baroni G.

Sci Rep. 2017 Dec 11;7(1):17568. doi: 10.1038/s41598-017-17187-3.

5.

Lack of NLRP3-inflammasome leads to gut-liver axis derangement, gut dysbiosis and a worsened phenotype in a mouse model of NAFLD.

Pierantonelli I, Rychlicki C, Agostinelli L, Giordano DM, Gaggini M, Fraumene C, Saponaro C, Manghina V, Sartini L, Mingarelli E, Pinto C, Buzzigoli E, Trozzi L, Giordano A, Marzioni M, Minicis S, Uzzau S, Cinti S, Gastaldelli A, Svegliati-Baroni G.

Sci Rep. 2017 Sep 22;7(1):12200. doi: 10.1038/s41598-017-11744-6. Erratum in: Sci Rep. 2017 Dec 11;7(1):17568.

6.

Caloric restriction promotes rapid expansion and long-lasting increase of Lactobacillus in the rat fecal microbiota.

Fraumene C, Manghina V, Cadoni E, Marongiu F, Abbondio M, Serra M, Palomba A, Tanca A, Laconi E, Uzzau S.

Gut Microbes. 2018 Mar 4;9(2):104-114. doi: 10.1080/19490976.2017.1371894. Epub 2017 Sep 21.

7.

Potential and active functions in the gut microbiota of a healthy human cohort.

Tanca A, Abbondio M, Palomba A, Fraumene C, Manghina V, Cucca F, Fiorillo E, Uzzau S.

Microbiome. 2017 Jul 14;5(1):79. doi: 10.1186/s40168-017-0293-3.

8.

Metaproteogenomics Reveals Taxonomic and Functional Changes between Cecal and Fecal Microbiota in Mouse.

Tanca A, Manghina V, Fraumene C, Palomba A, Abbondio M, Deligios M, Silverman M, Uzzau S.

Front Microbiol. 2017 Mar 14;8:391. doi: 10.3389/fmicb.2017.00391. eCollection 2017.

9.

Diversity and functions of the sheep faecal microbiota: a multi-omic characterization.

Tanca A, Fraumene C, Manghina V, Palomba A, Abbondio M, Deligios M, Pagnozzi D, Addis MF, Uzzau S.

Microb Biotechnol. 2017 May;10(3):541-554. doi: 10.1111/1751-7915.12462. Epub 2017 Feb 6.

10.

The impact of sequence database choice on metaproteomic results in gut microbiota studies.

Tanca A, Palomba A, Fraumene C, Pagnozzi D, Manghina V, Deligios M, Muth T, Rapp E, Martens L, Addis MF, Uzzau S.

Microbiome. 2016 Sep 27;4(1):51.

11.

Draft Genome Sequence of Rhodotorula mucilaginosa, an Emergent Opportunistic Pathogen.

Deligios M, Fraumene C, Abbondio M, Mannazzu I, Tanca A, Addis MF, Uzzau S.

Genome Announc. 2015 Apr 9;3(2). pii: e00201-15. doi: 10.1128/genomeA.00201-15.

12.

A straightforward and efficient analytical pipeline for metaproteome characterization.

Tanca A, Palomba A, Pisanu S, Deligios M, Fraumene C, Manghina V, Pagnozzi D, Addis MF, Uzzau S.

Microbiome. 2014 Dec 10;2(1):49. doi: 10.1186/s40168-014-0049-2. eCollection 2014.

13.

Evaluating the impact of different sequence databases on metaproteome analysis: insights from a lab-assembled microbial mixture.

Tanca A, Palomba A, Deligios M, Cubeddu T, Fraumene C, Biosa G, Pagnozzi D, Addis MF, Uzzau S.

PLoS One. 2013 Dec 9;8(12):e82981. doi: 10.1371/journal.pone.0082981. eCollection 2013.

14.

Molecular changes induced by the curcumin analogue D6 in human melanoma cells.

Rozzo C, Fanciulli M, Fraumene C, Corrias A, Cubeddu T, Sassu I, Cossu S, Nieddu V, Galleri G, Azara E, Dettori MA, Fabbri D, Palmieri G, Pisano M.

Mol Cancer. 2013 May 4;12:37. doi: 10.1186/1476-4598-12-37.

15.

Microsatellites and SNPs linkage analysis in a Sardinian genetic isolate confirms several essential hypertension loci previously identified in different populations.

Mocci E, Concas MP, Fanciulli M, Pirastu N, Adamo M, Cabras V, Fraumene C, Persico I, Sassu A, Picciau A, Prodi DA, Serra D, Biino G, Pirastu M, Angius A.

BMC Med Genet. 2009 Aug 28;10:81. doi: 10.1186/1471-2350-10-81.

16.

High differentiation among eight villages in a secluded area of Sardinia revealed by genome-wide high density SNPs analysis.

Pistis G, Piras I, Pirastu N, Persico I, Sassu A, Picciau A, Prodi D, Fraumene C, Mocci E, Manias MT, Atzeni R, Cosso M, Pirastu M, Angius A.

PLoS One. 2009;4(2):e4654. doi: 10.1371/journal.pone.0004654. Epub 2009 Feb 27.

17.

High resolution analysis and phylogenetic network construction using complete mtDNA sequences in sardinian genetic isolates.

Fraumene C, Belle EM, Castrì L, Sanna S, Mancosu G, Cosso M, Marras F, Barbujani G, Pirastu M, Angius A.

Mol Biol Evol. 2006 Nov;23(11):2101-11. Epub 2006 Aug 10.

PMID:
16901986
18.

Striking differentiation of sub-populations within a genetically homogeneous isolate (Ogliastra) in Sardinia as revealed by mtDNA analysis.

Fraumene C, Petretto E, Angius A, Pirastu M.

Hum Genet. 2003 Dec;114(1):1-10. Epub 2003 Sep 16.

PMID:
13680359

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