ICAR RESEARCH DATA REPOSITORY FOR KNOWLEDGE MANAGEMENT
(An Institutional Publication and Data Inventory Repository)
Expression of short hairpin RNA (shRNA) targeting AC2 gene of Mungbean yellow mosaic India virus (MYMIV) reduces the viral titre in soybean See
Stress-responsive miRNAome of Glycine max (L.) Merrill: molecular insights and way forward See
सोयाबीन बीज उत्पादन हेतु उत्तम तकनिकी एवं प्रबंधन See
Evaluation of soybean( Glycine max) Genotypes for seed longevity See
Problems in quality seed production of Soybean See
Influence of seed coat compactness around cotyledons, protein and mineral composition on mechanical strength of soybean [Glycine max (L.) Merrill] seed coat See
Efficient application of Trichoderma viride on soybean [Glycine max (L.) Merrill] seed using thin layer polymer coating See
Soybean Market Monitor Apr 2020-Sept 2020 See
राजभाषा पत्रिका सोयवृतिका See
Glomalin related protein and C16:1 omega 5 PLFA associated with AM fungi as potential signatures for assessing the soil C sequestration under contrasting soil management practices See
Physico-Chemical Properties of Immature Pods of Japanese Soybean Cultivars See
Effect of foliar application of growth activator, promoter and antioxidant on seed quality of soybean See
Deciphering the role of trehalose in tripartite symbiosis among rhizobia, arbuscular mycorrhizal fungi and legumes for enhancing abiotic stress tolerance in crop plants See
Lipoxygenase isozymes and trypsin inhibitor activities in soybean as influenced by growing location See
Evaluation of quality characteristics during developmental stages for green pod consumption among some of the released cultivars of Indian soybean. See
Evaluation of Japanese soybean genotypes grown in Indian conditions for physical and biochemical characteristics. See
Interrelationship of lipoxygenase isozymes, polyunsaturated fatty acid composition and trypsin inhibitor during seed development in soybean See
Seed coat peroxidase differences in Indian soybean (Glycine max(L) Merr.) cultivars as detected through electrophoresis See
Fatty acid profile of released cultivars of Indian soybean (Glycine max) with special reference to identification of comparatively low linolenic and high oleic acid cultivars See
Effect of photoperiod on fatty acid composition of oil in soybean genotypes. See
Association of linolenic and oleic acid content in Indian soybean with seed size and maturity period See
Phytic acid in soybean: genotypic variability and influence of growing location. See
Genotypic variation in lipoxygenase isozymes’ activity among Indian soybean cultivars/strains and some of the imported food-grade accessions See
- 2 A review of Indian subgenus Agand...
- 2 Effect of foliar application of g...
- 2 Expression of short hairpin RNA (...
- 2 Genetic Variability and Associati...
- 2 Identification of simple sequence...
- 2 Impact of Electron Beam on Storag...
- 2 Molecular Identification of Domin...
- 2 Plant miRNAome and antiviral resi...
- 2 Soybean Monitor/ Market Watch
- 2 Soybean News
- 2 Soybean Seed Germination: Factors...
- 2 Stress-responsive miRNAome of Gly...
- 2 Technology adoption, its impact a...
- 2 Validation of SSR markers linked ...
- 1 A comparative assessment of total...
- . next >
Content Types (Publication)