Christopher Dervinis
Overview
Explore the profile of Christopher Dervinis including associated specialties, affiliations and a list of published articles.
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Articles
29
Citations
550
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Recent Articles
11.
Balmant K, Noble J, Alves F, Dervinis C, Conde D, Schmidt H, et al.
Genome Res
. 2020 Aug;
30(8):1131-1143.
PMID: 32817237
Despite the growing resources and tools for high-throughput characterization and analysis of genomic information, the discovery of the genetic elements that regulate complex traits remains a challenge. Systems genetics is...
12.
Noble J, Balmant K, Dervinis C, de Los Campos G, Resende Jr M, Kirst M, et al.
Front Plant Sci
. 2020 Jun;
11:590.
PMID: 32582229
Alternative splicing (AS) is a mechanism of regulation of the proteome via enabling the production of multiple mRNAs from a single gene. To date, the dynamics of AS and its...
13.
Ribeiro C, Conde D, Balmant K, Dervinis C, Johnson M, McGrath A, et al.
Proc Natl Acad Sci U S A
. 2020 Feb;
117(9):5059-5066.
PMID: 32041869
The radiation of angiosperms led to the emergence of the vast majority of today's plant species and all our major food crops. Their extraordinary diversification occurred in conjunction with the...
14.
Acosta J, Fahrenkrog A, Neves L, Resende M, Dervinis C, Davis J, et al.
Genome Biol Evol
. 2019 Jan;
11(2):508-520.
PMID: 30689841
Loblolly pine (Pinus taeda) and slash pine (Pinus elliottii) are ecologically and economically important pine species that dominate many forest ecosystems in the southern United States, but like all conifers,...
15.
Fahrenkrog A, Neves L, Resende Jr M, Dervinis C, Davenport R, Barbazuk W, et al.
Ecol Evol
. 2017 Dec;
7(22):9426-9440.
PMID: 29187979
Despite its economic importance as a bioenergy crop and key role in riparian ecosystems, little is known about genetic diversity and adaptation of the eastern cottonwood (). Here, we report...
16.
Conde D, Moreno-Cortes A, Dervinis C, Ramos-Sanchez J, Kirst M, Perales M, et al.
Plant Cell Environ
. 2017 Aug;
40(11):2806-2819.
PMID: 28810288
The transition from active growth to dormancy is critical for the survival of perennial plants. We identified a DEMETER-like (CsDML) cDNA from a winter-enriched cDNA subtractive library in chestnut (Castanea...
17.
Conde D, Le Gac A, Perales M, Dervinis C, Kirst M, Maury S, et al.
Plant Cell Environ
. 2017 Jul;
40(10):2236-2249.
PMID: 28707409
Annual dormancy-growth cycle is a developmental and physiological process essential for the survival of deciduous trees in temperate and boreal forests. Seasonal control of shoot growth in woody perennials requires...
18.
Fahrenkrog A, Neves L, Resende Jr M, Vazquez A, de Los Campos G, Dervinis C, et al.
New Phytol
. 2016 Sep;
213(2):799-811.
PMID: 27596807
Genome-wide association studies (GWAS) have been used extensively to dissect the genetic regulation of complex traits in plants. These studies have focused largely on the analysis of common genetic variants...
19.
Ribeiro C, Silva C, Drost D, Novaes E, Novaes C, Dervinis C, et al.
BMC Plant Biol
. 2016 Mar;
16:66.
PMID: 26983547
Background: Adventitious roots (AR) develop from tissues other than the primary root, in a process physiologically regulated by phytohormones. Adventitious roots provide structural support and contribute to water and nutrient...
20.
Drost D, Puranik S, Novaes E, Novaes C, Dervinis C, Gailing O, et al.
BMC Plant Biol
. 2015 Jul;
15:166.
PMID: 26122556
Background: Leaf morphology varies extensively among plant species and is under strong genetic control. Mutagenic screens in model systems have identified genes and established molecular mechanisms regulating leaf initiation, development,...