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
1.
Pereira W, Conde D, Perron N, Schmidt H, Dervinis C, Venado R, et al.
J Exp Bot
. 2024 Nov;
76(4):931-949.
PMID: 39563004
The extensive use of nitrogen fertilizers has detrimental environmental consequences, and it is essential for society to explore sustainable alternatives. One promising avenue is engineering root nodule symbiosis, a naturally...
2.
The single-cell transcriptome program of nodule development cellular lineages in Medicago truncatula
Pereira W, Boyd J, Conde D, Triozzi P, Balmant K, Dervinis C, et al.
Cell Rep
. 2024 Feb;
43(2):113747.
PMID: 38329875
Legumes establish a symbiotic relationship with nitrogen-fixing rhizobia by developing nodules. Nodules are modified lateral roots that undergo changes in their cellular development in response to bacteria, but the transcriptional...
3.
Chanderbali A, Dervinis C, Anghel I, Soltis D, Soltis P, Zapata F
BMC Genom Data
. 2024 Jan;
25(1):1.
PMID: 38166621
Objectives: Escallonia (Escalloniaceae) belongs to the Escalloniales, a diverse clade of flowering plants with unclear placement in the tree of life. Escallonia species show impressive morphological and ecological diversity and...
4.
Knaack S, Conde D, Chakraborty S, Balmant K, Irving T, Maia L, et al.
BMC Biol
. 2022 Nov;
20(1):252.
PMID: 36352404
Background: Symbiotic associations between bacteria and leguminous plants lead to the formation of root nodules that fix nitrogen needed for sustainable agricultural systems. Symbiosis triggers extensive genome and transcriptome remodeling...
5.
Conde D, Triozzi P, Pereira W, Schmidt H, Balmant K, Knaack S, et al.
Development
. 2022 Sep;
149(21).
PMID: 36178121
Differentiation of stem cells in the plant apex gives rise to aerial tissues and organs. Presently, we lack a lineage map of the shoot apex cells in woody perennials -...
6.
Pereira W, Knaack S, Chakraborty S, Conde D, Folk R, Triozzi P, et al.
New Phytol
. 2022 Jan;
234(2):634-649.
PMID: 35092309
Nitrogen is one of the most inaccessible plant nutrients, but certain species have overcome this limitation by establishing symbiotic interactions with nitrogen-fixing bacteria in the root nodule. This root-nodule symbiosis...
7.
Triozzi P, Irving T, Schmidt H, Keyser Z, Chakraborty S, Balmant K, et al.
Plant Physiol
. 2021 Oct;
188(1):560-575.
PMID: 34599592
Most legumes can establish a symbiotic association with soil rhizobia that trigger the development of root nodules. These nodules host the rhizobia and allow them to fix nitrogen efficiently. The...
8.
Conde D, Triozzi P, Balmant K, Doty A, Miranda M, Boullosa A, et al.
PLoS One
. 2021 May;
16(5):e0251149.
PMID: 33974645
Single-cell transcriptome analysis has been extensively applied in humans and animal models to uncover gene expression heterogeneity between the different cell types of a tissue or an organ. It demonstrated...
9.
Triozzi P, Schmidt H, Dervinis C, Kirst M, Conde D
Tree Physiol
. 2021 May;
41(11):2216-2227.
PMID: 33960379
Although the CRISPR/Cas9 system has been successfully used for crop breeding, its application remains limited in forest trees. Here, we describe an efficient gene editing strategy for hybrid poplar, (Populus...
10.
Mavrodiev E, Dervinis C, Whitten W, Gitzendanner M, Kirst M, Kim S, et al.
Appl Plant Sci
. 2021 Apr;
9(3):e11413.
PMID: 33854847
Premise: Commonly used molecular techniques such as next-generation sequencing require reliable methods to extract DNA quickly and efficiently. Secondary compounds within plant tissues make this requirement all the more challenging,...