Abstract
Our efforts are oriented to assess bovine Y-chromosome gene expression patterns. One set of genes that are of interest are the so-called X-degenerate Y-chromosome genes that are located in the male-specific region of the Y-chromosome (MSY). This region contains 95% of the DNA of the Y chromosome. These genes are single copy and have an X-chromosome homolog. Both, the Y-encoded and X-encoded homologs have ubiquitous expression profiles. However, some genes, like SRY that regulates male sex determination, have functions that are more specific. Identifying DNA sequence differences between these homologs will allow evaluation of their spatial and temporal expression patterns. Identification of the Y-encoded mRNAs and their isoforms will allow our understanding of tissue specific expression of isoforms in male tissues. The latter will facilitate our evaluation of gene function in male sex differentiation and fertility. Hence, we hypothesized that each of these X-degenerate gene homologs generate isoforms and that differential expression patterns exist between sexes and across tissues. To investigate the latter we used a new generation sequencing (NGS) technology that generates long sequencing reads with a range between 1000 to 10,000 base pairs in length. Single molecule real time (SMRT) isoform sequencing (IsoSeq) of several tissues (liver, lung, adipose, muscle, hypothalamus and testis) was carried out. Transcript sequences were used for bioinformatics analysis and isoform characterization. Given the focus of this manuscript the SMRT technology we are only presenting results obtained with the analysis of the bUTY and bUTX genes.
Translated title of the contribution | Single molecule sequencing of nucleic acids in real time (SMRT) to characterize transcriptomes and mRNA isoforms |
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Original language | Spanish |
Pages (from-to) | 91-94 |
Number of pages | 4 |
Journal | Revista Peruana de Biologia |
Volume | 27 |
Issue number | 1 |
DOIs | |
State | Published - Mar 8 2020 |
Bibliographical note
Funding Information:Research was supported by Minnesota Agricultural Experiment Station (MAES) MIN-16-103 and University of Minnesota Grant-in-Aid # 23132 to FAPDL.
Funding Information:
?esearch was supported by Minnesota Agricultural Experiment Station 縀MAES 缀 MIN 爃爃 and University of Minnesota Grant ? in 爀Aid 뜀 to FAD ?
Publisher Copyright:
© Los autores.
Keywords
- Next generation sequencing
- SMRT sequencing
- X-degenerate genes
- Y-Chromosome