Molecular Plant Breeding
Nasrin Akbari; Reza Darvishzadeh
Abstract
Knowledge on genes effect and action (additive/dominance) is one of the necessities to achieve cultivars with high performance and quality. Estimating the breeding value (additive effect) can be done thanks to molecular markers through best linear unbiased prediction (BLUP). In the present study, 100 ...
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Knowledge on genes effect and action (additive/dominance) is one of the necessities to achieve cultivars with high performance and quality. Estimating the breeding value (additive effect) can be done thanks to molecular markers through best linear unbiased prediction (BLUP). In the present study, 100 oilseed sunflower genotypes were evaluated based on the 10×10 lattice design during two crop years of 1392-1393 under normal and drought stress (irrigation limitation) conditions. The breeding value of 13 traits in 78 genotypes out of 100 was estimated due to having genotyping data with SSR and Retrotransposon based markers in each one of normal and drought stress (irrigation limitation) conditions through BLUP. For this purpose, the kinship matrix was calculated by SSR and Retrotransposon based markers data. According to total ranks of breeding values of all studied traits estimated by molecular data of both markers, in normal conditions, genotypes 47, 11, 8 and 35 and under drought stress (irrigation limitation) conditions, genotypes 8, 11 and 35 showed the highest breeding value. Based on SSR markers data in normal conditions; genotypes 76, 36, 34 and 41 and based on Retrotransposon based markers data; genotypes 61, 78, 72 and 52, and in drought stress (irrigation limitation) conditions based on SSR markers data; genotypes 76, 38, 34, 29 and 70 and based on Retrotransposon based markers data; genotypes 16, 71, 78 and 61 showed the lowest breeding value. Considering both studied conditions and all studied traits and both molecular markers information, genotypes 8, 11 and 35 with high breeding value are introduced as desirable parents for breeding programs.
Bioinformatics
Seyyed Hamidreza Hashemi-petroudi; Samira Mohammadi; Esmaeil Bakhshandeh; Markus Kuhlmann
Abstract
From prokaryotes to higher eukaryotes, protein phosphatase 2Cs (PP2Cs) play a critical role in the stress response. For the purpose of identifying the AlPP2C gene and examining its expression, Aeluropus littoralis, a salt-secreting halophytic grass belonging to the Poaceae family, was genome-wildly analyzed. ...
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From prokaryotes to higher eukaryotes, protein phosphatase 2Cs (PP2Cs) play a critical role in the stress response. For the purpose of identifying the AlPP2C gene and examining its expression, Aeluropus littoralis, a salt-secreting halophytic grass belonging to the Poaceae family, was genome-wildly analyzed. Based on the unique structure of the PP2C domain, 34 AlPP2C genes were discovered and classified into ten evolutionary branches based on homology with Arabidopsis thaliana. According to exon-intron structural analyses, they possessed a wide range of exon counts. AlPP2Cs shared similar motif organization in the same evolutionary branches based on motif distribution. The motifs ABRE, MBS, DRE, STRE, and LTR, which are related with stress, were discovered in the promoter region of the AlPP2C. AlPP2Cs displayed varied expression patterns in leaf and root tissues in response to salt stress and recovery conditions, according to transcriptome analyses. The AlPP2C4 gene is only expressed in the root tissues. These results expand our understanding of the PP2C gene family and provide valuable information for future research on PP2Cs molecular function and biological processes studies.
Medicinal plant Biotechnology
Mona Faraji Heriss; Mohammad Reza Vaezi Kakhki; Nasrin Mollania; Mohammad Armin
Abstract
Abiotic stress and callus formation can increase total phenolic content and antioxidant activity. The aim of this study was to increase the amount of total phenol and antioxidant activity in Securigera securidaca L. and its calli by ultrasonic stress in vitro conditions. The plants were grown in the ...
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Abiotic stress and callus formation can increase total phenolic content and antioxidant activity. The aim of this study was to increase the amount of total phenol and antioxidant activity in Securigera securidaca L. and its calli by ultrasonic stress in vitro conditions. The plants were grown in the greenhouse. Callus formation was performed with MS culture medium containing α-naphthalene acetic acid (2.2 mg/L) and 6-Benzylaminopurine (8.8 mg/L). Ultrasonic stress was applied to the main plants for 10, 20 and 30 minutes in 15 days in vitro conditions; in addition, the ultrasonic stress was applied to the calli for 10 minutes at the same time. The samples were collected on the first, fifth, tenth and fifteenth days. The samples were then dried in an oven, then their ethanolic extract was prepared. Total phenol content and antioxidant activity tests were performed by Folin-Ciocalteu and Wu methods respectively on the leaves of the main plant and its calli. The results showed that the amount of total phenol in the 30 minutes on the first day of ultrasonic treatment is higher than the control. In all treatments, antioxidant activity was reduced compared to the control sample. The highest amount of phenol was observed in calli in ultrasonic stress treatment on the 15th day. Antioxidant activity was reduced in calli under ultrasonic stress compared to the control sample. Therefore, it can be concluded that ultrasonic stress in the samples of this experiment increased the amount of phenolic but did not affect the antioxidant activity. Callus formation and ultrasonic stress also increase total phenol content simultaneously.
Bioinformatics
Samira Mohammadi; Ghorbanali Nematzadeh; Hamid Najafi Zarini; Seyyed Hamidreza Hashemi-petroudi
Abstract
MicroRNAs are a large class of small and non-coding RNAs that regulate gene expression by binding target mRNA, which leads to cleavage or translational inhibition. Plant miR164 family is highly conserved and is involved in the responses of plants to biotic stresses through the regulation of their target ...
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MicroRNAs are a large class of small and non-coding RNAs that regulate gene expression by binding target mRNA, which leads to cleavage or translational inhibition. Plant miR164 family is highly conserved and is involved in the responses of plants to biotic stresses through the regulation of their target NAC genes. In the present study, 68 putative NAC domain-encoding genes (NACs) were identified in Aeluropus littoralis, a halophyte plant of family Poaceae. Among the AlNAC genes identified, 4 were predicted putative targets for regulation by miR164. The high conservation of miR164 recognition sites in AlNAC genes indicates the essential role of target sites in the normal function of these genes as transcription factors. Expression profile of AlNAC1L.1 candidate gene in response to salt and drought stresses and ABA phytohormone in leaf, stem and root tissues was analyzed by RT-qPCR. The results showed that AlNAC1L.1 gene down-regulated in all tissues at 6 hours after applying stresses. Among the treatments, 600 mM NaCl treatment reduced AlNAC1L.1 expression in leaf, stem and root tissues to about -217, -26 and -9 folds, respectively. Therefore, the AlNAC1L.1 which is ortholog of known Oryza miR164-targeted NAC gene OMTN6, may play negative regulatory role in response to salt, drought and ABA treatments. These results indicated that function of some NAC proteins might be conserved among species. Collectively, these findings provided a useful resource for further analysis of the interactions between NAC genes and their intricate regulation by miR164 in response to abiotic stresses.
Biotic and Abiotic stress
Mehraneh Taslimi; Atefeh Sabouri; Amin Abedi
Abstract
Drought is one of the most important limiting factors for economic produce crops especially rice in the world. In order to identify related markers to yield and agronomic traits under drought stress condition, 40 recombinant inbred lines F9 (RILs) derived from IR28 and Shah-Pasand varieties evaluated ...
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Drought is one of the most important limiting factors for economic produce crops especially rice in the world. In order to identify related markers to yield and agronomic traits under drought stress condition, 40 recombinant inbred lines F9 (RILs) derived from IR28 and Shah-Pasand varieties evaluated at Rice Research Institute of Iran (Rasht) in the spring and summer 2018, as randomized block design with three replications. In this regard, 110 SSR and EST-SSR markers were assessed on parents of population and identified 41 markers had proper polymorphism between two parents. According to the regression analysis results, 24 and 22 significant markers identified under normal and drought stress conditions respectively. The maximum adjusted (R2) under normal and drought stress conditions were assigned to RM3496 linked to days to flowering (24.8%) and RMES6-1 linked to panicle exsertion (28.1%), respectively. Two markers RM211 and RM6697 had the most number of significant relationship with different traits including panicle length, flag leaf length, number of filled grains per panicle, the total number of grain per panicle, and weight of filled grain per panicle under non-stress and drought stress conditions respectively. According to the bioinformatics searches, the maximum gene expression pattern under drought stress condition was related to gene with accession code LOC_Os01g43370. The identified informative markers and the detected genes by bioinformatics approaches after validation can be utilized in marker assisted-selection (MAS) or gene transfer approaches for improving rice yield and tolerance to drought stress.
Biotic and Abiotic stress
Seyyed Hamidreza Hashemi-Petroudi; Hamidreza Ghorbani; Markus Kuhlmann
Abstract
Bioinformatic analysis plays an important role in the study of genes and the prediction of their function in response to stresses. Halophyte Aeluropus littoralis, a valuable genetic resource for identifying genes involved in plant tolerance to abiotic stresses. In this study, Phosphoglycerate Dehydrogenase ...
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Bioinformatic analysis plays an important role in the study of genes and the prediction of their function in response to stresses. Halophyte Aeluropus littoralis, a valuable genetic resource for identifying genes involved in plant tolerance to abiotic stresses. In this study, Phosphoglycerate Dehydrogenase (PGDH) gene as the first important enzyme in the synthesis of serine, was Isolated based on EST sequence from plant Aeluropus littoralis in salinity using by the RLM-RACE method. By overlapping the 3’ and EST sequences, a 1506 bp fragment including the ORF region (1268 nucleotides) and 3’UTR region (238 nucleotides) were obtained. The phylogenetic analysis of AlPGDH was done with other ortholog genes in different plants and its homologs were identified. Based on phylogram, the high degree of homology was observed between AlPGDH gene and other homologous genes from monocot cereals such as sorghum, foxtail millet and rice. The AtPGDH co-expression network analysis showed the important role of the PGDH gene in biosynthetic pathways, including amino acid synthesis, secondary metabolites synthesis and the pathway of glycine, serine and threonine metabolism, and its expression analysis indicated that the expression was increased in different stresses. The Phenotyping of the Arabidopsis knockout mutants for PGDH gene in NaCl and PEG stress condition indicated that the growth characteristics were significantly reduced in compared to the control plant, which could be confirmed the role of this gene in the response to salt and drought stress. The findings of this study reveal the functional characteristics of AlPGDH gene, phenotypic changes in AtPGDH mutant plants in exposure to salt and drought stress, and its possible role in increasing plant tolerance to stress.
Genomics
Reza Darvishzadeh
Volume 5, Issue 9 , June 2015, , Pages 15-28
Abstract
Since the economic value of cultivars depends on different characteristics, thus procedure of selection for several traits to maximizing the economic value always has been considered by plant breeders. Detailed knowledge on genetic behavior and association between economic traits will help breeders to ...
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Since the economic value of cultivars depends on different characteristics, thus procedure of selection for several traits to maximizing the economic value always has been considered by plant breeders. Detailed knowledge on genetic behavior and association between economic traits will help breeders to improve plant populations. In this study, 12 retrotransposons-based primers (7 IRAP and 5 REMAP primers) and general and mixed linear models (GLM and MLM) were used to identify molecular markers associated to 9 seed related important traits including oil yield, oil percentage, protein yield, protein percentage, grain length, grain diameter, grain weight, dehulled kernel weight, percentage of dehulled kernel weight to whole grain in 48 confectionery sunflower landraces under normal irrigation, mild and severe drought stress conditions. By applying Bayesian model, the whole confectionery sunflower populations were classified into two sub-populations. Based on general linear model, 2, 5 and 12 loci and through mixed linear model 2, 5 and 11 loci showed significant (P
Molecular Genetics and Genetic Engineering
Masoud Tohidfar; Ebrahimi Ghorishi; Bartali Fakheri; Motahareh Mohsenpour
Volume 4, Issue 6 , October 2014, , Pages 47-59
Abstract
Abiotic stresses such as drought and salinity are the first factor of YIELD decrease in the world. In this study, betaine aldehyde dehydrogenase gene (badh) is used as both an abiotic stress marker gene and one of the abiotic stress tolerance candidate genes along with Flavodoxin (fld) in construction ...
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Abiotic stresses such as drought and salinity are the first factor of YIELD decrease in the world. In this study, betaine aldehyde dehydrogenase gene (badh) is used as both an abiotic stress marker gene and one of the abiotic stress tolerance candidate genes along with Flavodoxin (fld) in construction of chloroplast vector for rice. Thereby, adding the appropriate enzyme role to let gene cassette enter to the center. The first two parts of a specific target areaof Plastom rice (FR) the rice genome using PCR that they can be re-attached in cloning. Then, the gene cassetes were designed for fld and badh genes in regulatory regions of the chloroplast. So that the fld genes and with rbcl 5'UTR and badh genes with T7gene10 5'UTR were cloned the strong chloroplastsic promoter Prrn and the terminator rbcl 3'UTR. Finally, The complete two-gene cassettes fld/badh with the regulatory regions is separated from targeting chloroplast metabolism of rice in two sides cloned. The two specific chloroplast vector called pFrFB(-) and pFrFB(+) are potential to be attached to gene that are resistant to drought and salinity targeted with two different orientations relative to the inner regions of the chloroplast genome of rice plants and are able to be the goal of creating high resistance to salinity, drought and chill in transferring genes to use the chloroplast of rice plant via gene gun.
