Original Article
Genetics and Genomic basis of Stay-green Trait
Year: 2021 | Month: June | Volume 14 | Issue 2
1.Armstead, I., Donnison, I., Aubry, S., Harper, J., Hörtensteiner, S., James, C., Mani, J., Moffet, M., Ougham, H., Roberts, L. and Thomas, A. 2007. Cross-species identification of Mendel’s I locus. Science, 315(5808): 73-73.
View at Google Scholar2.Hilli, H.J. and Immadi, S.U. 2021. Evaluation of stay-green sunflower lines and their hybrids for yield under drought conditions.
View at Google Scholar3.Hiremath and Nadaf, L. 2017. Assessment of Stay Green Genotypes of Sunflower for Root Traits under Different Soil Moisture Regimes. Int. J. Curr. Microbiol. App. Sci. 6(11): 1156-1166.
View at Google Scholar4.Li, W. and Guo, Y. 2014. Transcriptome, transcription factors and transcriptional regulation of leaf senescence. J. Bioinfor. Comp. Geno., 1(1): 78-80.
View at Google Scholar5.Moschen, S.N., López Gialdi, A.I., Paniego, N.B., Fernandez, P.D.C. and Heinz, R.A. 2017. Sunflower leaf senescence: a complex genetic process with economic impact on crop production, 45: 1755-1760.
View at Google Scholar6.Rakshit, A., Singh, H.B., Singh, A.K. and Singh, U.S. 2020. New frontiers in Stress Management for Durable Agriculture. Springer Nature, Singapore.
View at Google Scholar7.Thomas, H. and Howarth, C.J. 2000. Five ways to stay green. J. Experi. Bot., 51(suppl_1): 329-337.
View at Google Scholar8.Zhou, C., Han, L., Pislariu, C., Nakashima, J., Fu , C., Jiang, Q., Quan, L., Blancaflor, E.B., Tang, Y., Bouton, J.H. and Udvardi, M. 2011. From model to crop: functional analysis of a STAY-GREEN gene in the model legume Medicago truncatula and effective use of the gene for alfalfa improvement. Plant Physiology, 157(3): 1483-1496.
View at Google Scholar