Nicolas Puillandre
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Explore the profile of Nicolas Puillandre including associated specialties, affiliations and a list of published articles.
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48
Citations
768
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Recent Articles
1.
Nocella E, Fassio G, Zuccon D, Puillandre N, Modica M, Oliverio M
Coral Reefs
. 2024 Sep;
43(5):1285-1302.
PMID: 39308990
Supplementary Information: The online version contains supplementary material available at 10.1007/s00338-024-02537-1.
2.
Puillandre N, Miralles A, Brouillet S, Fedosov A, Fischell F, Patmanidis S, et al.
Methods Mol Biol
. 2024 Apr;
2744:313-334.
PMID: 38683328
DNA barcoding plays an important role in exploring undescribed biodiversity and is increasingly used to delimit lineages at the species level (see Chap. 4 by Miralles et al.). Although several...
3.
Fedosov A, Puillandre N, Fischell F, Patmanidis S, Miralles A, Vences M
Methods Mol Biol
. 2024 Apr;
2744:297-311.
PMID: 38683327
Rapid biodiversity loss sets new requirements for taxonomic research, prompting updating some long-established practices to maximize timely documentation of species before they have gone extinct. One of the crucial procedures...
4.
Vences M, Patmanidis S, Fedosov A, Miralles A, Puillandre N
Methods Mol Biol
. 2024 Apr;
2744:281-296.
PMID: 38683326
The overall availability of user-friendly software tools tailored to the analysis of DNA barcodes is limited. Several obvious functions such as detecting and visualizing the DNA barcode gap, the calculation...
5.
Miralles A, Puillandre N, Vences M
Methods Mol Biol
. 2024 Apr;
2744:77-104.
PMID: 38683312
Over the past two decades, DNA barcoding has become the most popular exploration approach in molecular taxonomy, whether for identification, discovery, delimitation, or description of species. The present contribution focuses...
6.
Ringeval A, Farhat S, Fedosov A, Gerdol M, Greco S, Mary L, et al.
Brief Bioinform
. 2024 Mar;
25(2).
PMID: 38493344
Venomous organisms have independently evolved the ability to produce toxins 101 times during their evolutionary history, resulting in over 200 000 venomous species. Collectively, these species produce millions of toxins,...
7.
Fedosov A, Zaharias P, Lemarcis T, Modica M, Holford M, Oliverio M, et al.
Syst Biol
. 2024 Mar;
73(3):521-531.
PMID: 38456663
The molluskan order Neogastropoda encompasses over 15,000 almost exclusively marine species playing important roles in benthic communities and in the economies of coastal countries. Neogastropoda underwent intensive cladogenesis in the...
8.
Zaharias P, Kantor Y, Fedosov A, Puillandre N
Mol Phylogenet Evol
. 2023 Nov;
191:107969.
PMID: 38007006
Taxon sampling in most phylogenomic studies is often based on known taxa and/or morphospecies, thus ignoring undescribed diversity and/or cryptic lineages. The family Turridae is a group of venomous snails...
9.
Fedosov A, Tucci C, Kantor Y, Farhat S, Puillandre N
J Mol Evol
. 2023 Nov;
91(6):837-853.
PMID: 37962577
Venomous marine gastropods of the family Conidae are among the most diversified predators in marine realm-in large due to their complex venoms. Besides being a valuable source of bioactive neuropeptides...
10.
Farhat S, Modica M, Puillandre N
Mol Biol Evol
. 2023 Jul;
40(8).
PMID: 37494290
The diversity of venomous organisms and the toxins they produce have been increasingly investigated, but taxonomic bias remains important. Neogastropods, a group of marine predators representing almost 22% of the...