Browsing by Author "Unel N.M."
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Scopus Comparative identification and evolutionary relationship of fatty acid desaturase (FAD) genes in some oil crops: the sunflower model for evaluation of gene expression pattern under drought stress(2018-07-04) Celik Altunoglu Y.; Unel N.M.; Baloglu M.C.; Ulu F.; Can T.H.; Cetinkaya R.Sunflower (Helianthus annuus L.) and some oil crops have considerable economic value, making them important for commercial use. The fatty acid content of their seeds is crucial for proper nutrition. Additionally, the desaturation reaction via fatty acid desaturases (FADs) leads to formation of double bonds in fatty acids and is an essential step in fatty acid biosynthesis. This study aimed to identify and compare some fatty acid desaturase gene members in sunflower and other oil crops. Totally, 33 FAD genes from sunflower, 19 from sesame, 20 from canola, 25 from cacao and 46 from flax were analysed. The FAD members had roles in oxidation–reduction processes, fatty acid biosynthetic processes or lipid metabolic processes. Comparative phylogenetic and motif analysis revealed a conserved structure among FAD members belonging to various oil crops. The average Ka/Ks rates calculated on the basis of orthologous gene analysis were 0.04, 0.05 and 0.05 between sunflower and, respectively, canola, cacao and sesame. The most recent divergence time between sunflower and cacao was estimated at an average of 100 million years ago (MYA). This was followed by flax, sesame and canola with an average of 101 MYA, 114 MYA and 149 MYA, respectively. Alpha-helices were dominant in the predicted 3D structures of FAD proteins. The FAB2 expression levels from a drought tolerant sunflower variety were not affected by drought. The characterisation of desaturase family members in economically valuable oil crops could be useful for functional cloning studies to enhance the unsaturated fatty acid contents of the plants.Scopus Comparative identification, characterization, and expression analysis of bZIP gene family members in watermelon and melon genomes(2019-03-02) Unel N.M.; Cetin F.; Karaca Y.; Celik Altunoglu Y.; Baloglu M.C.The family of basic leucine zipper (bZIP) transcription factors plays diverse crucial roles in numerous biological processes. Despite the identification of bZIP genes in several plants, to our knowledge, bZIP members in watermelon and melon are yet to be comprehensively investigated. The genomes of watermelon and melon encode 59 ClabZIP and 75 CmbZIP putative genes, respectively. Both bZIP protein family members were phylogenetically grouped into seven subfamilies. The majority of bZIP genes in the same subfamily shared similar gene structures and conserved motifs. Chromosome distribution and genetic analysis revealed that 21 duplication events between ClabZIP genes and 106 duplication events between CmbZIP genes have occurred. Further, the three-dimensional structure and functional annotation of bZIP proteins was predicted. For evaluating the expression patterns of ClabZIP and CmbZIP genes, RNA-seq data available in public databases were analyzed. The expression profiles of selected ClabZIP and CmbZIP genes in root and leaf tissues of drought-stressed watermelon and melon were also examined using qRT-PCR. ClabZIP-57, CmbZIP-52, and CmbZIP-31 genes exhibited the highest expression levels after stress exposure in leaf and root tissues. Gene identification studies like the present study offer new perspectives in the analysis of bZIP protein family members and their functions in plants.Scopus Comprehensive investigation of cucumber heat shock proteins under abiotic stress conditions: A multi-omics survey(2023-09-10) Unel N.M.; Baloglu M.C.; Altunoglu Y.Ç.Scopus Genome-wide characterization and expression analysis of GATA transcription factors under combination of light wavelengths and drought stress in potato(2024-04-01) Aksoy E.; Yavuz C.; Yagiz A.K.; Unel N.M.; Baloğlu M.C.