218 research outputs found
Genetics and telemetry indicate unexpected movements among structured populations for Brachyplatystoma platynemum in the Amazon
The genetic analysis of Brachyplatystoma platynemum individuals sampled from the lower Madeira River reinforces the existence of two structured populations in the Amazon Basin (Madeira and Amazon populations). However, the recapture of an individual from the Amazon population in the SolimĂ”es River, which was telemetryâtagged in the Madeira River after the damming, indicates that fish from the Amazon population move between the two river systems. This has not been observed, however, in the Madeira River population, which is currently divided and isolated in the lower and upper Madeira River by the construction of two dams
A new species of Bryconops (Teleostei: Characidae) from the rio Madeira basin, Northern Brazil
Uma nova espĂ©cie de Bryconops Ă© descrita para um tributĂĄrio do rio Madeira na bacia do rio Amazonas, Brasil. Bryconops piracolina pertence ao subgĂȘnero Bryconops por nĂŁo possuir dentes ou raramente apresentar apenas um dente na maxila, e por possuir uma ĂĄrea nua na face entre o segundo e terceiro infraorbitais. A espĂ©cie nova se distingue de todas as espĂ©cies do subgĂȘnero Bryconops pela presença de uma grande mancha negra na base da nadadeira dorsal. AlĂ©m disto, difere de todas as espĂ©cies do gĂȘnero, exceto B. inpai, por possuir a nadadeira adiposa inteiramente preta. Difere de B. inpai pela ausĂȘncia de manchas umerais. Difere de todas as espĂ©cies de Bryconops, exceto B. caudomaculatus, por possuir as Ășltimas escamas da sĂ©rie longitudinal de escamas da linha lateral sem poros alĂ©m da terminação da placa hipural e difere de B. caudomaculatus pelo menor nĂșmero de escamas com poros da linha lateral (31-36, mĂ©dia 34,6 vs. 37-43 mĂ©dia, 40,6; respectivamente).A new species of Bryconops is described from a tributary to the rio Madeira in the Amazon basin, State of RondĂŽnia, Brazil. Bryconops piracolina belongs to the subgenus Bryconops by having no teeth or rarely one tooth in the maxilla, and a naked area on cheek between the second and third infraorbitals. The new species is distinguished from all species of this subgenus by the presence of a large black blotch on dorsal-fin base. Furthermore, it is distinguished from all congeners, except B. inpai, by possessing the adipose fin entirely black. It differs from B. inpai by the lack of humeral spots. It further differs from all species of the subgenus Bryconops, except B. caudomaculatus, by having the last scales of the longitudinal series of scales that bears the lateral line series not pored beyond the end of the hypural plate, and differs from B. caudomaculatus by the smaller number of pored lateral line scales (31-36, mean 34.6, vs. 37-43, mean = 40.6, respectively)
Molecular characterization of the Rpv3 locus towards the development of KASP markers for downy mildew resistance in grapevine (Vitis spp.).
Plasmopara viticola is the oomycete that causes downy mildew in grapevines. Varying levels of resistance to P. viticola across grape cultivars allowed quantitative trait loci to be identified. The Rpv3 locus is located at chromosome 18, in a region enriched in TIR-NBS-LRR genes, and the phenotype associated is a high hypersensitive response. In this work, we aimed to identify candidate genes associated with resistance to downy mildew on the Rpv3 locus and to evaluate their transcriptional profiles in a susceptible and a resistant grapevine cultivar after challenging with P. viticola. Candidate genes were identified by in silico functional enrichment tests. Many predicted genes associated with resistance to diseases were found at the Rpv3 locus. In total, seventeen genes were evaluated by RT-qPCR. Differences in the steadystate expression of these genes were observed between the two cultivars. Four genes were found to be expressed only in Villard Blanc, suggesting their association to the hypersensitivity reaction. Aiming to assist marker assisted-selection for downy mildew resistance, we show the efficient use of a set of SSR markers. Furthermore, from on a set of forty-one Rpv3-located SNPs, whose segregation was tested in the populations studied, the two segregating markers, Rpv3_15 and Rpv3_33, were considered efficient for downy mildew resistance identification. This study presents a genomic characterization of the Rpv3 locus, confirms its involvement in resistance against P. viticola infection and presents promising biotechnological tools for the selection of young resistant individuals.Na publicação: Roberto Togawa
Molecular phylogeny of the subfamily Stevardiinae Gill, 1858 (Characiformes: Characidae): classification and the evolution of reproductive traits
Abstract
Background
The subfamily Stevardiinae is a diverse and widely distributed clade of freshwater fishes from South and Central America, commonly known as âtetrasâ (Characidae). The group was named âclade Aâ when first proposed as a monophyletic unit of Characidae and later designated as a subfamily. Stevardiinae includes 48 genera and around 310 valid species with many species presenting inseminating reproductive strategy. No global hypothesis of relationships is available for this group and currently many genera are listed as incertae sedis or are suspected to be non-monophyletic.
Results
We present a molecular phylogeny with the largest number of stevardiine species analyzed so far, including 355 samples representing 153 putative species distributed in 32 genera, to test the groupâs monophyly and internal relationships. The phylogeny was inferred using DNA sequence data from seven gene fragments (mtDNA: 12S, 16S and COI; nuclear: RAG1, RAG2, MYH6 and PTR). The results support the Stevardiinae as a monophyletic group and a detailed hypothesis of the internal relationships for this subfamily.
Conclusions
A revised classification based on the molecular phylogeny is proposed that includes seven tribes and also defines monophyletic genera, including a resurrected genus Eretmobrycon, and new definitions for Diapoma, Hemibrycon, Bryconamericus sensu stricto, and Knodus sensu stricto, placing some small genera as junior synonyms. Inseminating species are distributed in several clades suggesting that reproductive strategy is evolutionarily labile in this group of fishes.http://deepblue.lib.umich.edu/bitstream/2027.42/134621/1/12862_2015_Article_403.pd
Caracterização da função do gene FLC-LIKE durante a transição da Endo- para ecodormencia na macieira.
The MADS-box MdFLC-like gene was previously described within the major QTL for time of bud break in apple chromosome Chr09, and its expression gradually increases towards dormancy release
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