EIN3/EIL (Ethylene Insensitive3 / Ethylene Insensitive3 Like) Protein Family in Phaseolus vulgaris: Identification, Evolution and Expression Analysis within the Genome

Akbulut, Simay Ezgi; Şafak, Zehra; Okay, Aybüke; Amirina, Kimia; Büyük, İlker

doi:10.24925/turjaf.v11i2.215-226.5172

Turkish JAF Sci.Tech.

2023

DOI: 10.24925/turjaf.v11i2.215-226.5172

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EIN3/EIL (Ethylene Insensitive3 / Ethylene Insensitive3 Like) Protein Family in Phaseolus vulgaris: Identification, Evolution and Expression Analysis within the Genome

Simay Ezgi Akbulut

Zehra Şafak

Aybüke Okay

et al.

Abstract: Ethylene insensitive-3 (EIN3) / Ethylene insensitive-3-like (EIL) protein family is a small family of transcription factors specific to plants that play role in plant growth and development under various environmental conditions. In this study, various bioinformatics approaches were used to make an in-depth identification of the EIN3/EIL family at both the gene and protein levels. So, 11 Pvul-EIL genes were identified and their approximate locations were determined. Various biochemical and physicochemical prop… Show more

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2024

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Deciphering Late Embryogenesis Abundant (Lea) Genes In Phaseolus vulgaris L. Through Bioinformatics

Farhoomand Aksoy,

Akbulut,

Büyük

2024

Commun. Fac. Sci. Univ. Ank. Ser. C

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The Late Embryogenesis Abundant (LEA) gene family is considered vital for plant's ability to survive freezing and desiccation, affecting important developmental and growth processes. These proteins possess notable hydrophilicity and thermal stability, which are essential for preserving cell membrane integrity, forming molecular barriers, aiding in ionic binding, and mitigating oxidative damage during extended periods of exposure to abiotic stress conditions. Although LEA proteins have been extensively studied in numerous plant species, this study represents the initial comprehensive exploration and characterization of LEA proteins in Phaseolus vulgaris L. In this context, the biochemical/physicochemical properties of the LEA family at both the gene and protein level have been deeply characterized and defined using various bioinformatics tools. Through comprehensive bioinformatics analyzes, we identified 80 LEA genes in common bean and phylogenetically categorized their proteins into eight major groups. Investigating gene duplications, we uncovered 28 events, including 24 segmental and 4 tandem duplications, significantly influencing the evolutionary trajectory of this gene family. In silico micro-RNA (miRNA) target analyzes revealed that 21 PvLEA genes were targeted by various miRNAs, with miRN2588 and miR164 being the most prevalent. PvLEA-63 emerged as the most highly expressed gene across tissues, followed by PvLEA-27, PvLEA-35, PvLEA-41, PvLEA-49 and PvLEA-52 genes, demonstrating their ubiquitous expression patterns. Moreover, using publicly available RNAseq data, a comparative expression study of PvLEA genes was carried out, and expression alterations in PvLEA-02, -08, -20, -21, -40, -42, -50 and -51 genes were detected under both salt and drought stress conditions. These results constitute a substantial resource for future researchers interested in unravelling the functional intricacies of PvLEA genes.

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Deciphering Late Embryogenesis Abundant (Lea) Genes In Phaseolus vulgaris L. Through Bioinformatics

Farhoomand Aksoy,

Akbulut,

Büyük

2024

Commun. Fac. Sci. Univ. Ank. Ser. C

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show abstract

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EIN3/EIL (Ethylene Insensitive3 / Ethylene Insensitive3 Like) Protein Family in Phaseolus vulgaris: Identification, Evolution and Expression Analysis within the Genome

Cited by 1 publication

References 69 publications

Deciphering Late Embryogenesis Abundant (Lea) Genes In Phaseolus vulgaris L. Through Bioinformatics

Deciphering Late Embryogenesis Abundant (Lea) Genes In Phaseolus vulgaris L. Through Bioinformatics

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