The Arabidopsis Tóxicos en Levadura (ATL) protein family is a class of E3 ubiquitin ligases with a characteristic RING-H2 Zn-finger structure that mediates diverse physiological processes and stress responses in plants. We carried out a genome-wide survey of grapevine (Vitis vinifera L.) ATL genes and retrieved 96 sequences containing the canonical ATL RING-H2 domain. We analysed their genomic organisation, gene structure and evolution, protein domains and phylogenetic relationships. Clustering revealed several clades, as already reported in Arabidopsis thaliana and rice (Oryza sativa), with an expanded subgroup of grapevine-specific genes. Most of the grapevine ATL genes lacked introns and were scattered among the 19 chromosomes, with a high level of duplication retention. Expression profiling revealed that some ATL genes are expressed specifically during early or late development and may participate in the juvenile to mature plant transition, whereas others may play a role in pathogen and/or abiotic stress responses, making them key candidates for further functional analysis. Our data offer the first genome-wide overview and annotation of the grapevine ATL family, and provide a basis for investigating the roles of specific family members in grapevine physiology and stress responses, as well as potential biotechnological applications.
Formalin-fixed, paraffin-embedded (FFPE) tissues represent a unique source of archived biological material, but obtaining suitable DNA and RNA for retrospective "-omic" investigations is still challenging. In the current study, canine tumor FFPE blocks were used to 1) compare common commercial DNA and RNA extraction kits; 2) compare target gene expression measured in FFPE blocks and biopsies stored in a commercial storage reagent; 3) assess the impact of fixation time; and 4) perform biomolecular investigations on archival samples chosen according to formalin fixation times. Nucleic acids yield and quality were determined by spectrophotometer and capillary electrophoresis, respectively. Quantitative real-time polymerase chain reaction assays for the following genes: BCL-2-associated X protein, B-cell lymphoma extra large, antigen identified by monoclonal antibody Ki-67, proto-oncogene c-KIT (c-kit). Two internal control genes (Golgin A1 and canine transmembrane BAX inhibitor motif containing 4), together with direct sequencing of c-kit exons 8, 9, 11, and 17, were used as end points. Differences in DNA/RNA yield and purity were noticed among the commercial kits. Nucleic acids (particularly RNA) extracted from paraffin blocks were degraded, even at lower fixation times. Compared to samples held in the commercial storage reagent, archived tissues showed a poorer amplification. Therefore, a gold standard protocol for DNA/RNA isolation from canine tumor FFPE blocks for molecular investigations is still troublesome. More standardized storage conditions, including time between sample acquisition and fixation, fixation time, and sample thickness, are needed to guarantee the preservation of nucleic acids and, then, their possible use in retrospective transcriptomic analysis.
Arabidopsis thaliana Toxicos en Levadura (ATL) proteins are a subclass of the RING-H2 zinc finger binding E3 ubiquitin ligases. The grapevine (Vitis vinifera) ATL family was recently characterized, revealing 96 members that are likely to be involved in several physiological processes through protein ubiquitination. However, the final targets and biological functions of most ATL E3 ligases are still unknown. We analyzed the co-expression networks among grapevine ATL genes across a set of transcriptomic data related to defense and abiotic stress, combined with a condition-independent dataset. This revealed strong correlations between ATL proteins and diverse signal transduction components and transcriptional regulators, in particular those involved in immunity. An enrichment analysis of cis-regulatory elements in ATL gene promoters and related co-expressed genes highlighted the importance of hormones in the regulation of ATL gene expression. Our work identified several ATL proteins as candidates for further studies aiming to decipher specific grapevine resistance mechanisms activated in response to pathogens.
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