Plant Thaumatin-like Proteins: Function, Evolution and Biotechnological Applications.

Thaumatin-like proteins (TLPs) are a highly complex protein family associated with host defense and developmental processes in plants, animals, and fungi. They are highly diverse in angiosperms, for which they are classified as the PR-5 (Pathogenesis-Related-5) protein family. In plants, TLPs have a variety of properties associated with their structural diversity. They are mostly associated with responses to biotic stresses, in addition to some predicted activities under drought and osmotic stresses. The present review covers aspects related to the structure, evolution, gene expression, and biotechnological potential of TLPs. The efficiency of the discovery of new TLPs is below its potential, considering the availability of omics data. Furthermore, we present an exemplary bioinformatics annotation procedure that was applied to cowpea (Vigna unguiculata) transcriptome, including libraries of two tissues (root and leaf), and two stress types (biotic/abiotic) generated using different sequencing approaches. Even without using genomic sequences, the pipeline uncovered 56 TLP candidates in both tissues and stresses. Interestingly, abiotic stress (root dehydration) was associated with a high number of modulated TLP isoforms. The nomenclature used so far for TLPs was also evaluated, considering TLP structure and possible functions identified to date. It is clear that plant TLPs are promising candidates for breeding purposes and for plant transformation aiming a better performance under biotic and abiotic stresses. The development of new therapeutic drugs against human fungal pathogens also deserves attention. Despite that, applications derived from TLP molecules are still below their potential, as it is evident in our review.

Complete genome sequence of melon yellowing-associated virus from melon plants with the severe yellowing disease in Brazil.

Here, we describe the complete genome sequence of melon yellowing-associated virus (MYaV), found in melon plants with severe yellowing disease, determined by high-throughput and Sanger sequencing. MYaV has an RNA genome of 9073 nucleotides plus a poly(A) tail. At least six open reading frames were predicted, with a typical carlavirus genomic organisation. Phylogenetic analysis of the complete genome sequence and the amino acid sequences of the RNA-dependent RNA polymerase confirmed that MYaV belongs to the genus Carlavirus, with the highest genome-wide nucleotide sequence identity of 59.8% to sweet potato yellow mottle virus.

Complete genome sequence of a putative new secovirus infecting yam (Dioscorea) plants.

The complete genome sequence of a new virus infecting yam plants exhibiting mosaic symptom in Brazil was determined. The genome of this virus is composed of two molecules of positive-sense RNAs of 5979 and 3809 nucleotides in length, excluding the poly(A) tails. One large open reading frame (ORF) in each genomic segment (RNA1-ORF1 and RNA2-ORF2) was predicted. The highest amino acid sequence similarity in the Pro-Pol core region of RNA1 and the CP region of RNA2 was observed with chocolate lily virus A (a putative member of the family Secoviridae), with 54.6 and 27.7 % identity, respectively. This virus is thus likely to be a new member of the family Secoviridae, and we propose the tentative name "dioscorea mosaic-associated virus" (DMaV) for this virus.

Incidência de vírus em videiras no Nordeste brasileiro e caracterização molecular parcial de isolados virais locais / Incidence of viruses in grapevines in the Brazilian Northeast and partial molecular characterization of local virus isolates

Os objetivos deste trabalho foram identificar as espécies virais presentes em vinhedos comerciais de duas regiões do Nordeste do Brasil e realizar a caracterização molecular parcial de isolados de três espécies virais. A diagnose foi realizada por meio de RT-PCR em tempo real para a detecção de Grapevine rupestris stem pitting-associated virus (GRSPaV), Grapevine virus A (GVA), Grapevine virus B (GVB), Grapevine leafroll-associated virus 2, 3 e 4 (GLRaV-2, -3 e -4), Grapevine fleck virus (GFkV), Grapevine rupestris vein feathering virus (GRVFV) e Grapevine fanleaf virus (GFLV). Exceto para GFLV, os vírus avaliados estão amplamente disseminados nas áreas amostradas, frequentemente em altas incidências e em infecções múltiplas, de até 98% e 76,4%, na Zona da Mata e no Vale do São Francisco, respectivamente. Isolados locais de GVA, GVB e GLRaV-3 foram parcialmente caracterizados com base na sequência completa de nucleotídeos do gene da proteína capsidial e apresentaram alta porcentagem de identidade de nucleotídeos com outros isolados brasileiros: 91,2% (GVA), 99,8% (GVB) e 99,7% (GLRaV-3).

The objectives of this study were to identify viral species infecting commercial vineyards in two regions of Northeastern Brazil and perform partial molecular characterization of isolates of three virus species. The diagnosis was performed by real time RT-PCR for detection of GRSPaV, GVA, GVB, GLRaV-2, GLRaV-3, GLRaV-4, GFkV, GRVFV and GFLV. Except for GFLV, the evaluated viruses are widespread in the sampled areas, often in high incidences and in multiple infections, up to 98% and 76.4%, in the Zona da Mata and in the Vale do São Francisco regions, respectively. Local isolates of GVA, GVB and GLRaV-3, partially characterized by complete coat protein gene nucleotide sequencing, showed high percentage of nucleotide identities with other Brazilian isolates of these viruses: 91.2% (GVA), 99.8% (GVB) and 99.7% (GLRaV-3).

The complete genome sequence of a Brazilian isolate of yam mild mosaic virus.

In this study, the complete genome of an isolate of yam mild mosaic virus (YMMV) from Brazil was sequenced, and the predicted amino acid sequence was analyzed. The YMMV RNA genome consists of 9538 nt without the poly(A) tail, encoding a putative typical potyvirus polyprotein of 3084 amino acids. Furthermore, the small overlapping ORF (PIPO) in the P3 gene was also deduced, and the cleavage sites of the polyprotein were predicted. Multiple alignment with other potyviruses showed a maximum nucleotide sequence identity of 64 % to wild tomato mosaic virus. A phylogenetic tree showed that YMMV clustered with Asian potyviruses that mainly infect solanaceous plants.

High genetic variability and recombination in a begomovirus population infecting the ubiquitous weed Cleome affinis in northeastern Brazil.

Diseases caused by begomoviruses are a serious constraint to crop production in many tropical and subtropical areas of the world, including Brazil. Begomoviruses are whitefly-transmitted, single-stranded DNA viruses that are often associated with weed plants, which may act as natural reservoirs of viruses that cause epidemics in crop plants. Cleome affinis (family Capparaceae) is an annual weed that is frequently associated with leguminous crops in Brazil. Samples of C. affinis were collected in four states in the northeast of Brazil. Analysis of 14 full-length DNA-A components revealed that only one begomovirus was present, with 91-96% identity to cleome leaf crumple virus (ClLCrV). In a phylogenetic tree, ClLCrV forms a basal group relative to all other Brazilian begomoviruses. Evidence of multiple recombination events was detected among the ClLCrV isolates, which also display a high degree of genetic variability. Despite ClLCrV being the only begomovirus found, its phylogenetic placement, high genetic variability and recombinant nature suggest that C. affinis may act as a source of novel viruses for crop plants. Alternatively, ClLCrV could be a genetically isolated begomovirus. Further studies on the biological properties of ClLCrV should help to clarify the role of C. affinis in the epidemiological scenario of Brazilian begomoviruses.

Recombinant expression of Garlic virus C (GARV-C) capsid protein in insect cells and its potential for the production of specific antibodies.

Garlic cultivars in Brazil are infected by a complex of viruses and for some virus species, such as the allexivirus, purification of the virions is sometimes cumbersume. To overcome this problem, recombinant expression of viral proteins in heterologous systems is an alternative method for producing antibodies. The capsid gene from Garlic virus C (GarV-C), an Allexivirus, was inserted into the genome of Autographa californica multiple nucleopolyhedrovirus (AcMNPV) generating the recombinant virus vSynGarV-C. The recombinant protein expression was confirmed by SDS-PAGE and western-blot of extracts from recombinant virus infected insect cells, where a protein band of approximately 32KDa was observed only in extracts from recombinant infected cells. This protein corresponded to the predicted size of the capsid protein of the GarV-C. A rabbit polyclonal antibody was raised against this protein, shown to be specific for the GarV-C protein in western-blot and dot-Elisa, however with a low titer.