Juan Pablo Cardenas
Overview
Explore the profile of Juan Pablo Cardenas including associated specialties, affiliations and a list of published articles.
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16
Citations
271
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Recent Articles
1.
Almonacid D, Kraal L, Ossandon F, Budovskaya Y, Cardenas J, Bik E, et al.
PLoS One
. 2019 Feb;
14(2):e0212474.
PMID: 30753236
[This corrects the article DOI: 10.1371/journal.pone.0176555.].
2.
Quatrini R, Escudero L, Moya-Beltran A, Galleguillos P, Issotta F, Acosta M, et al.
Stand Genomic Sci
. 2017 Dec;
12:84.
PMID: 29270251
10.1601/nm.2199 CLST is an extremely acidophilic gamma-proteobacteria that was isolated from the Gorbea salt flat, an acidic hypersaline environment in northern Chile. This kind of environment is considered a terrestrial...
3.
Castro M, Moya-Beltran A, Covarrubias P, Gonzalez M, Cardenas J, Issotta F, et al.
Stand Genomic Sci
. 2017 Dec;
12:77.
PMID: 29255572
is an extremely acidophilic, mesophilic, obligatory autotrophic sulfur-oxidizer, with potential importance in the bioleaching of sulfidic metal ores, first described in the 1980s. Here we present the draft genome sequence...
4.
Almonacid D, Kraal L, Ossandon F, Budovskaya Y, Cardenas J, Bik E, et al.
PLoS One
. 2017 May;
12(5):e0176555.
PMID: 28467461
Changes in the relative abundances of many intestinal microorganisms, both those that naturally occur in the human gut microbiome and those that are considered pathogens, have been associated with a...
5.
Nunez H, Moya-Beltran A, Covarrubias P, Issotta F, Cardenas J, Gonzalez M, et al.
Front Microbiol
. 2017 Feb;
8:30.
PMID: 28154559
The acidithiobacilli are sulfur-oxidizing acidophilic bacteria that thrive in both natural and anthropogenic low pH environments. They contribute to processes that lead to the generation of acid rock drainage in...
6.
Cardenas J, Quatrini R, Holmes D
Res Microbiol
. 2016 Jul;
167(7):529-38.
PMID: 27394987
High-throughput genomic technologies are accelerating progress in understanding the diversity of microbial life in many environments. Here we highlight advances in genomics and metagenomics of microorganisms from bioleaching heaps and...
7.
Jorquera R, Ortiz R, Ossandon F, Cardenas J, Sepulveda R, Gonzalez C, et al.
Database (Oxford)
. 2016 Jun;
2016.
PMID: 27278816
Eukaryotic genes are typically interrupted by intragenic, noncoding sequences termed introns. However, some genes lack introns in their coding sequence (CDS) and are generally known as 'single exon genes' (SEGs)....
8.
Cardenas J, Ortiz R, Norris P, Watkin E, Holmes D
Int J Syst Evol Microbiol
. 2015 Jul;
65(10):3641-3644.
PMID: 26198437
Analysis of phylogenomic metrics of a recently released draft genome sequence of the halotolerant, acidophile 'Thiobacillus prosperus' DSM 5130 indicates that it is not a member of the genus Thiobacillus...
9.
Cardenas J, Lazcano M, Ossandon F, Corbett M, Holmes D, Watkin E
Genome Announc
. 2014 Nov;
2(6).
PMID: 25377718
The genomic features of the Leptospirillum ferriphilum type strain DSM 14647 are described here. An analysis of the predicted genes enriches our knowledge of the molecular basis of iron oxidation,...
10.
Ossandon F, Cardenas J, Corbett M, Quatrini R, Holmes D, Watkin E
Genome Announc
. 2014 Oct;
2(5).
PMID: 25342676
"Thiobacillus prosperus" is a halotolerant mesophilic acidophile that gains energy through iron and sulfur oxidation. Its physiology is poorly understood. Here, we describe the principal genomic features of the type...