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Popularity involving intradermal inactivated influenza vaccinations amid hospital personnel right after Only two seasons vaccine activities.
4% of the total accessions. A selection index calculated based on all root traits in acid soil screening was highest in AGG70137 (636.7) whereas it was lowest in Precoz (76.3). All histochemical and biochemical analyses supported the hydroponic results as Northfield, AGG70137, AGG70561 and AGG70281 showed consistent good performance. The identified new sources of Al tolerant lentil germplasm can be used to breed new Al toxicity tolerant lentil varieties. The established high throughput hydroponic method can be routinely used for screening lentil breeding populations for Al toxicity tolerance. Future recommendations could include evaluation of the yield potential of the selected subset of accessions under acid soil field conditions, and the screening of a wider range of landrace accessions originating from areas with Al toxic acid soils.Rice is an important source of calorie for the growing world population. Beta-Lapachone in vitro Its productivity, however is affected by climatic adversities, pest attacks, diseases of bacterial, viral and fungal origin and many other threats. Developing cultivars that are high yielding and stress resilient seems a better solution to tackle global food security issues. This study investigates the potential resistance of 24 rice cultivars against Xanthomonas oryzae pv. Oryzae (Xoo) infection that causes bacterial leaf blight disease and submergence stress. Bacterial leaf blight (BLB) resistance genes (Xa4, xa5, xa13, Xa21, Xa38) and submergence tolerance (Sub1) gene specific markers were used to determine the allelic status of genotypes. The results displayed presence of Xa4 resistance allele (78.95%), xa5 (15.79%) but xa13 and Sub1 tolerance allele were not found in any genotype. However, a new allele for Xa21 (84.21%) and Xa38 (10.52%) were identified in several genotypes. Phenotypic screening for both stress conditions was done tre genetic variation within population than among population. Principal component analysis (PCA) showed that 9 morphological traits collectively explained 76.126% of total variation among all the genotypes studied. The information from this study would be useful in future breeding programs for pyramiding trait specific genes into high yielding cultivars that fall behind with respect to stress resilience.
The online version contains supplementary material available at 10.1007/s12298-021-00951-1.
The online version contains supplementary material available at 10.1007/s12298-021-00951-1.In salt-prone areas, plant growth and productivity is adversely affected. In the present study, the ZT1-ZT6 transgenic tomato lines having BcZAT12 gene under the regulatory control of the stress inducible Bclea1 promoter were exposed to three salinity levels (50, 100 and 200 mM) at the four leaf stage for 10 days. The transgenic lines showed improved growth in stem height, leaf area, root length and shoot length under saline conditions, as compared to control. Moreover, ZT1 and ZT5 lines showed lower electrolyte leakage and decreased hydrogen peroxide formation, in combination with elevated relative water content, proline and chlorophyll levels. The enzyme activity of catalase was also enhanced in ZT1 and ZT5. These results poses the present lines as an attractive alternative for tomato cultivation in salinity-affected areas.Deeper Rooting 1 (DRO1) gene identified from a major QTL on chromosome 9 increases the root growth angle (RGA) and thus facilitates survival under drought and hence is an excellent candidate for rice improvement. Twenty-four major Indian upland and lowland genotypes including the 'yield under drought' (DTY) QTL donors were subjected to allele mining of DRO1 (3058 bp) using four pairs of overlapping primers. A total of 216 and 52 SNPs were identified across all genotypes in the gene and coding region (756 bp) respectively with transversions 3.6 fold more common than transitions in the gene and 2.5 times in the CDS. In 251 amino acid long protein, substitutions were found in 19 positions, wherein change in position 92 was the most frequent. Based on allele mining, the 24 genotypes can be classified into 16 primary structure variants ranging from complete functional allele (Satti, IR36 and DTY 3.1 donor, IR81896-B-B-195) to truncated non-functional alleles in PMK2, IR64, IR20 and Swarna. All the DTY donors, other than IR81896-B-B-195, and most of the upland drought tolerant cultivars (Nagina 22, Vandana and Dhagaddeshi) had accumulated 6-19 SNPs and 4-8 amino acid substitutions resulting in substantial differences in their protein structure. The expression analysis revealed that all the genotypes showed upregulation under drought stress though the degree of upregulation varied among genotypes. The information on structural variations in DRO1 gene will be very useful for the breeders, especially in the light of recent breeding programmes on improving drought tolerance using several DTY donors and upland accessions.
The online version of this article (10.1007/s12298-021-00950-2).
The online version of this article (10.1007/s12298-021-00950-2).Pear fruit could be used as good medicine to relieve coughs, promote salivation, nourish lungs, and reduce the risk of many diseases for its phytochemical action. Lignin is a major secondary metabolite in Chinese pear fruit. Class III peroxidase (Class III PRX) is an important enzyme in the biosynthesis of lignin in plants. However, we poorly understand the role of PRXs in lignin biosynthesis in Chinese pear fruit. In our study, we cloned five PRXs from Chinese pear (Pyrus bretschneideri), namely PbPRX2, PbPRX22, PbPRX34, PbPRX64, and PbPRX75, which contained 978 bp encoded 326 amino acids (AA), 2607 bp encoded 869 AA, 972 bp encoded 324 AA, 687 bp encoded 229 AA, and 1020 bp encoded 340 AA, respectively. Enzyme activity analysis showed that four recombinant PbPRX proteins had catalytic activities for pyrogallol, guaiacol, ferulic acid, coniferyl alcohol, and sinapyl alcohol. Subcellular localization experiments showed that these genes were located in the cell wall or cell membrane. Enzyme activity and kinetics of PbPRX2 revealed its role in polymerization of lignin in Chinese pear fruit. The present study suggested that PbPRXs played critical roles in lignin biosynthesis in Chinese pear fruit.
The online version contains supplementary material available at 10.1007/s12298-021-00949-9.
The online version contains supplementary material available at 10.1007/s12298-021-00949-9.
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