Titlebook: Rice Improvement; Physiological, Molec Jauhar Ali,Shabir Hussain Wani Book‘‘‘‘‘‘‘‘ 2021 The Editor(s) (if applicable) and The Author(s) 202

Cognizance

Advances in Two-Line Heterosis Breeding in Rice via the Temperature-Sensitive Genetic Male Sterilit resistance to insect pests and diseases for TGMS line development and physiological characterization is also discussed. In addition, the identification and validation of natural sites for TGMS self-seed multiplication and hybrid rice seed production through GIS mapping and climatic data analytical

homocysteine

BROTH

被告

Genetics and Breeding of Low-Temperature Stress Tolerance in Rice,ransformation, transcriptomics, and metabolomics to elucidate the molecular mechanisms of cold tolerance in rice. The stage-specific QTLs and candidate genes for LTS tolerance brought out valuable information toward identifying and improving LTS tolerance in rice varieties. We showed 578 QTLs and 38

Benzodiazepines

占线

旧病复发

上流社会

Doubled Haploids in Rice Improvement: Approaches, Applications, and Future Prospects, of anther culture is determined by several factors that limit the efficiency of androgenesis. Identified constraints are early anther necrosis, poor-callus response, and proliferation, and low green-plant regeneration, along with the most frustrating albinism associated with . rice, which has been

Landlocked

Zinc-Biofortified Rice: A Sustainable Food-Based Product for Fighting Zinc Malnutrition,nes, and Indonesia. Efforts have begun to mainstream grain Zn to ensure that the Zn trait becomes an integral part of future varieties. Huge scope exists to apply advanced genomics technologies such as genomic selection and genome editing to speed up high-Zn varietal development. An efficient rice v

大都市

Biofortification of Rice Grains for Increased Iron Content,ignificantly increase grain-Fe density. The most successful approach to reach the Fe breeding target was by overexpression of multiple genes. Despite this success, a significant effort of 8–10 years needs to be dedicated from the proof of concept to varietal release. This includes large-scale plant