Use este identificador para citar ou linkar para este item: http://repositorio.ufla.br/jspui/handle/1/55080
Título: The SAUR gene family in coffee: genome-wide identification and gene expression analysis during somatic embryogenesis
Palavras-chave: Small auxin-up RNA (SAUR)
Genomic structure
Phylogenetic relationship
RT-qPCR
Coffea sp.
Somatic embryogenesis
Data do documento: 2022
Editor: Springer
Citação: ZANIN, F. C. et al. The SAUR gene family in coffee: genome-wide identification and gene expression analysis during somatic embryogenesis. Molecular Biology Reports, [S.l.], v. 49, p. 1973-1984, 2022.
Resumo: Background Small auxin-up RNA (SAUR) genes form a wide family supposedly involved in different physiological and developmental processes in plants such as leaf senescence, auxin signaling and transport, hypocotyl development and tolerance to abiotic stresses. The transcription of SAUR genes is quickly induced by auxins, a group of phytohormones of major importance on embryo development. To better understand the distribution and expression profile of such still not explored family in Coffea sp., especially during the development of somatic embryogenesis (SE), SAUR members were characterized in silico using the available Coffea canephora genome data and analyzed for gene expression by RT-qPCR in C. arabica embryogenic samples. Methods and results Over C. canephora genome 31 CcSAURs were distributed by 11 chromosomes. Out of these 31 gene members, 5 SAURs were selected for gene expression analysis in C. arabica embryogenic materials. CaSAUR12 and CaSAUR18 were the members highly expressed through almost all plant materials. The other genes had more expression in at least one of the developing embryo stages or plantlets. The CaSAUR12 was the only member to exhibit an increased expression in both non-embryogenic calli and the developing embryo stages. Conclusion The identification of SAUR family on C. canephora genome followed by the analysis of gene expression profile across coffee somatic embryogenesis process on C. arabica represents a further additional step towards a better comprehension of molecular components acting on SE. Along with new research about this gene family such knowledge may support studies about clonal propagation methods via somatic embryogenesis to help the scientific community towards improvements into coffee crop.
URI: https://link.springer.com/article/10.1007/s11033-021-07011-7
http://repositorio.ufla.br/jspui/handle/1/55080
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