During indexing of a potato germplasm collection from Bolivia, a strain of potato virus X (PVX), X,,, which failed to cause local lesions in inoculated leaves of Gomphrena globosa was found in 7% of the clones. X,, was transmitted by inoculation of sap to 56 species from 11 families out of 64 species from 12 families tested. It was best propagated in Nicotiana glutinosa or N. debneyi; Montia perfolia and Petunia hybrida were useful as local lesion hosts. Inoculated leaves of G. globosa plants kept at loo, 14O, 18O, 22O, or 26 O C after inoculation were always infected symptomlessly. X,, caused a mild mosaic, systemic chlorotic blotching or symptomless infection in 16 wild potato species and eight Andean potato cultivars, systemic necrotic symptoms in clone A6 and cultivar Mi Peru, and bright yellow leaf markings in cultivar Renacimiento. It caused necrotic local lesions in inoculated leaves of British potato cultivars with the PVX hypersensitivity gene Nb but then invaded the plants systemically without causing further necrosis; with gene Nx systemic invasion occurred but no necrotic symptoms developed. These reactions resemble those of PVX strain group four. X,, differed from other known strains of PVX in readily infecting PVX-immune clones 44/1016/10, G. 4298.69 and USDA 41956, cultivars Saphir and Saco, and Solanum acaule PI 230554. X,, had slightly flexuous filamentous particles with a normal length of 5 16 nm. It was transmitted readily by plant contact and it partially protected G. globosa leaves from infection with X,,, a group two strain of PVX. Sap from infected N . glutinosa was infective after dilution to but not lo-', after 10 min at 75" but not 80 OC and after 1 yr at 20 "C. X,, was readily purified from infected N . debneyi leaves by precipitation with polyethylene glycol followed by differential centrifugation. Microprecipitin tests showed that X,, and X,, are closely related serologically.
Um isolado do Southern bean mosaic virus (SBMV), gênero Sobemovirus, encontrado em feijoeiro (Phaseolus vulgaris) no Estado de São Paulo, foi purificado e algumas de suas propriedades moleculares determinadas. As partículas virais apresentam diâmetro de 28-30 nm e proteína capsidial com massa molecular estimada em 30 kDa. Das partículas virais foi extraído RNA de vários tamanhos (4,2 Kb, 3,1 Kb, 2,65 Kb, 2,15 Kb, 1,64 Kb, 1,36 Kb e 1,0 Kb) sendo aquele de 4,2 Kb o RNA genômico e o de 1,0 Kb supostamente um subgenômico que codifica para a proteína capsidial. Ácidos ribonucleicos de mesmo tamanho foram também detectados in vivo, indicando estar associados à replicação viral. Na análise do RNA de fita dupla (dsRNA), somente duas espécies foram detectadas (4,2 Kpb e 1,0 Kpb) correspondendo às formas replicativas do RNA genômico e do subgenômico para proteína capsidial. Os resultados indicam que somente estes dois RNA são replicados por meio de formas replicativas (RFs), enquanto os demais devem ser formados talvez por iniciação interna da fita negativa do RNA genômico. O SBMV-B SP apresentou propriedades moleculares análogas àquelas do SBMV descrito na América do Norte.
O presente trabalho caracteriza o gene codificador da proteína capsidial do isolado do Grapevine virus A (GVA) encontrado no Estado de São Paulo (GVA-SP). RNA total foi extraído de folhas e pecíolos de plantas de videira (Vitis spp.) da variedade 'Kober 5BB' e submetido a RT-PCR usando oligonucleotídeos desenhados para amplificar um fragmento entre as posições 6409 e 7175 do RNA do GVA ("GenBank", acesso X75433). Foi obtido um fragmento de tamanho esperado (767 nt) que inclui o gene da proteína capsidial, codificando 198 aminoácidos. A seqüência do GVA-SP apresentou similaridade de nucleotídeos e aminoácidos de, respectivamente, 86-92,3% e 94,5-98% com isolados do GVA da Europa, África e Japão (Acessos X75433, AF441234, AF007415, AB039841) e da região Sul do Brasil (Acesso AF494187), sendo, entretanto, mais similar aos isolados africano e italiano.
The large spectrum of hearing sensitivity observed in primates results from the impact of environmental and behavioral pressures to optimize sound perception and localization. Although evidence of positive selection in auditory genes has been detected in mammals including in Hominoids, selection has never been investigated in other primates. We analyzed 123 genes highly expressed in the inner ear of 27 primate species and tested to what extent positive selection may have shaped these genes in the order Primates tree. We combined both site and branch-site tests to obtain a comprehensive picture of the positively selected genes (PSGs) involved in hearing sensitivity, and drew a detailed description of the most affected branches in the tree. We chose a conservative approach, and thus focused on confounding factors potentially affecting PSG signals (alignment, GC-biased gene conversion, duplications, heterogeneous sequencing qualities). Using site tests, we showed that around 12% of these genes are PSGs, an α selection value consistent with average human genome estimates (10-15%). Using branch-site tests, we showed that the primate tree is heterogeneously affected by positive selection, with the black snub-nosed monkey, the bushbaby, and the orangutan, being the most impacted branches. A large proportion of these genes is inclined to shape hair cells and stereocilia, which are involved in the mechanotransduction process, known to influence frequency perception. Adaptive selection, and more specifically recurrent adaptive evolution, could have acted in parallel on a set of genes (ADGRVl, USH2A, PCDH15, PTPRQ and ATP8A2) involved in stereocilia growth and the whole complex of bundle links connecting them, in species across different habitats, including high altitude and nocturnal environments.
O presente trabalho caracteriza a região 3'-terminal do genoma de um isolado do Southern bean mosaic virus encontrado no Estado de São Paulo (SBMV-SP). O RNA foi extraído de partículas virais purificadas e submetido a RT-PCR usando oligonucleotídeos desenhados para amplificar 972 nt da região 3'-terminal do RNA viral. Foi obtido fragmento de tamanho esperado que inclui o gene da proteína capsidial e a região 3'-terminal não codificadora. O gene da proteína capsidial (ORF4) contém 801 nucleotídeos, incluindo-se o códon de terminação UGA, com seqüência deduzida de 266 aminoácidos e massa molecular estimada de 28.800 Da. Sessenta e um aminoácidos terminais da ORF2 estão sobrepostos na ORF4. O "sinal de localização nuclear", encontrado dentro do "Domínio R" na região 5'-terminal da ORF4 de alguns sobemovírus, não foi identificado no SBMV-SP. Esse dado pode explicar a ausência de partículas virais do SBMV-SP no núcleo celular. A seqüência do SBMV-SP apresentou identidade de nucleotídeos e aminoácidos de, respectivamente, 91% e 93% com o isolado "Arkansas" (SBMV-ARK) descrito nos EUA. Os resultados obtidos indicam que o SBMV-SP e o SBMV-ARK são isolados muito proximamente relacionados.
No presente trabalho, descreve-se a caracterização do gene codificador da proteína capsidial de dois isolados sintomatologicamente distintos do Grapevine virus B (GVB). Para isto, RNA totais foram extraídos de folhas e pecíolos de videiras (Vitis spp.) infetadas, cultivares Rubi (GVB-C SP) e Itália (GVB-I SP) e utilizados para amplificar, por RT/PCR, um fragmento entre as posições 6425 e 7118 (694 nucleotídeos, nt) do RNA do GVB ("GenBank", acesso X75448). O fragmento obtido inclui o gene da proteína capsidial (594 nt) codificando 197 aminoácidos com massa molecular estimada em aproximadamente 21.600 Da. A seqüência do GVB-C SP apresentou maior similaridade de nucleotídeos e aminoácidos deduzidos com o isolado italiano (acesso X75448), enquanto que o GVB-I SP foi mais similar a um outro isolado brasileiro do GVB descrito no Rio Grande do Sul (GVB BR1, acesso AF438410). Os dois isolados paulistas do GVB podem ser diferenciados por digestão com a enzima de restrição EcoRI, uma vez que há um sítio interno no GVB-C SP que está ausente no isolado GVB-I SP.
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In the context of human evolution, the study of proteins may overcome the limitation of the high degradation of ancient DNA over time to provide biomolecular information useful for the phylogenetic reconstruction of hominid taxa. In this study, we used a shotgun proteomics approach to compare the tooth proteomes of extant human and non-human primates (gorilla, chimpanzee, orangutan and baboon) in order to search for a panel of peptides able to discriminate between taxa and further help reconstructing the evolutionary relationships of fossil primates. Among the 25 proteins shared by the five genera datasets, we found a combination of peptides with sequence variations allowing to differentiate the hominid taxa in the proteins AHSG, AMBN, APOA1, BGN, C9, COL11A2, COL22A1, COL3A1, DSPP, F2, LUM, OMD, PCOLCE and SERPINA1. The phylogenetic tree confirms the placement of the samples in the appropriate genus branches. Altogether, the results provide experimental evidence that a shotgun proteomics approach on dental tissue has the potential to detect taxonomic variation, which is promising for future investigations of uncharacterized and/or fossil hominid/hominin specimens.
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