Marco T Rincon
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Explore the profile of Marco T Rincon including associated specialties, affiliations and a list of published articles.
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15
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1157
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Recent Articles
1.
Rincon M, Dassa B, Flint H, Travis A, Jindou S, Borovok I, et al.
PLoS One
. 2010 Sep;
5(8):e12476.
PMID: 20814577
Background: The cellulosome is a multi-enzyme machine, which plays a key role in the breakdown of plant cell walls in many anaerobic cellulose-degrading microorganisms. Ruminococcus flavefaciens FD-1, a major fiber-degrading...
2.
Miller M, Antonopoulos D, Rincon M, Band M, Bari A, Akraiko T, et al.
PLoS One
. 2009 Aug;
4(8):e6650.
PMID: 19680555
Background: Ruminococcus flavefaciens is a predominant cellulolytic rumen bacterium, which forms a multi-enzyme cellulosome complex that could play an integral role in the ability of this bacterium to degrade plant...
3.
Alber O, Noach I, Rincon M, Flint H, Shimon L, Lamed R, et al.
Proteins
. 2009 Jun;
77(3):699-709.
PMID: 19544570
The cellulosome is an intriguing multienzyme complex found in cellulolytic bacteria that plays a key role in the degradation of plant cell-wall polysaccharides. In Ruminococcus flavefaciens, a predominant fiber-degrading bacterium...
4.
Kazimierczak K, Rincon M, Patterson A, Martin J, Young P, Flint H, et al.
Antimicrob Agents Chemother
. 2008 Sep;
52(11):4001-9.
PMID: 18779355
The bacterium Clostridium saccharolyticum K10, isolated from a fecal sample obtained from a healthy donor who had received long-term tetracycline therapy, was found to carry three tetracycline resistance genes: tet(W)...
5.
Jindou S, Brulc J, Levy-Assaraf M, Rincon M, Flint H, Berg M, et al.
FEMS Microbiol Lett
. 2008 Jun;
285(2):188-94.
PMID: 18564339
Ruminococcus flavefaciens is a vital cellulosome-producing fibrolytic rumen bacterium. The arrangement of the cellulosomal scaffoldin gene cluster (scaC-scaA-scaB-cttA-scaE) is conserved in two R. flavefaciens strains (17 and FD-1). Sequence analysis...
6.
Flint H, Bayer E, Rincon M, Lamed R, White B
Nat Rev Microbiol
. 2008 Jan;
6(2):121-31.
PMID: 18180751
The microbiota of the mammalian intestine depend largely on dietary polysaccharides as energy sources. Most of these polymers are not degradable by the host, but herbivores can derive 70% of...
7.
Rincon M, Cepeljnik T, Martin J, Barak Y, Lamed R, Bayer E, et al.
J Bacteriol
. 2007 May;
189(13):4774-83.
PMID: 17468247
Ruminococcus flavefaciens produces a cellulosomal enzyme complex, based on the structural proteins ScaA, -B, and -C, that was recently shown to attach to the bacterial cell surface via the wall-anchored...
8.
Patterson A, Rincon M, Flint H, Scott K
Antimicrob Agents Chemother
. 2006 Dec;
51(3):1115-8.
PMID: 17178791
Mosaic tetracycline resistance genes comprising tet(O), tet(W), and tet(32) sequences were abundant in DNA extracted from pig and human fecal samples, accounting for 78% (50/64) and 46% (37/80) of genes...
9.
Ramsay A, Scott K, Martin J, Rincon M, Flint H
Microbiology (Reading)
. 2006 Nov;
152(Pt 11):3281-3290.
PMID: 17074899
Selected butyrate-producing bacteria from the human colon that are related to Roseburia spp. and Butyrivibrio fibrisolvens showed a good ability to utilize a variety of starches for growth when compared...
10.
Jindou S, Borovok I, Rincon M, Flint H, Antonopoulos D, Berg M, et al.
J Bacteriol
. 2006 Sep;
188(22):7971-6.
PMID: 16997963
A 17-kb scaffoldin gene cluster in Ruminococcus flavefaciens strain FD-1 was compared with the homologous segment published for strain 17. Although the general design of the cluster is identical in...