Salt tolerance QTLs of an endemic rice landrace, Horkuch at seedling and reproductive stages

[1]  M. S. Rahman,et al.  Combination of traits at two developmental stages under salt stress as a measure of tolerance in a reciprocally crossed rice (Oryza sativa) population , 2020, Crop and Pasture Science.

[2]  Zeba I. Seraj,et al.  Validation of QTLs in Bangladeshi rice landrace Horkuch responsible for salt tolerance in seedling stage and maturation , 2019, Acta Physiologiae Plantarum.

[3]  T. Juenger,et al.  Gene Expression analysis associated with salt stress in a reciprocally crossed rice population , 2019, Scientific Reports.

[4]  B. Yandell,et al.  R/qtl2: Software for Mapping Quantitative Trait Loci with High-Dimensional Data and Multiparent Populations , 2018, Genetics.

[5]  M. Purugganan,et al.  Mapping of HKT1;5 Gene in Barley Using GWAS Approach and Its Implication in Salt Tolerance Mechanism , 2018, Front. Plant Sci..

[6]  L. D. Whitley,et al.  TSPmap, a tool making use of traveling salesperson problem solvers in the efficient and accurate construction of high-density genetic linkage maps , 2017, BioData Mining.

[7]  Ruyang Zhang,et al.  Mapping of a major QTL for salt tolerance of mature field-grown maize plants based on SNP markers , 2017, BMC Plant Biology.

[8]  R. Munns,et al.  Chloroplast function and ion regulation in plants growing on saline soils: lessons from halophytes. , 2017, Journal of experimental botany.

[9]  S. Schwartz,et al.  Reproductive stage physiological and transcriptional responses to salinity stress in reciprocal populations derived from tolerant (Horkuch) and susceptible (IR29) rice , 2017, Scientific Reports.

[10]  A. Ismail,et al.  Exploring novel genetic sources of salinity tolerance in rice through molecular and physiological characterization. , 2016, Annals of botany.

[11]  Ajay Kumar,et al.  Novel nuclear-cytoplasmic interaction in wheat (Triticum aestivum) induces vigorous plants , 2016, Functional & Integrative Genomics.

[12]  Samsad Razzaque,et al.  Enhanced Salt Tolerance Conferred by the Complete 2.3 kb cDNA of the Rice Vacuolar Na+/H+ Antiporter Gene Compared to 1.9 kb Coding Region with 5′ UTR in Transgenic Lines of Rice , 2016, Front. Plant Sci..

[13]  M. Purugganan,et al.  Comprehensive phenotypic analysis of rice (Oryza sativa) response to salinity stress. , 2015, Physiologia plantarum.

[14]  Hongwei Zhao,et al.  Genetic structure, linkage disequilibrium and association mapping of salt tolerance in japonica rice germplasm at the seedling stage , 2015, Molecular Breeding.

[15]  A. Pouyan Nejadhashemi,et al.  Climate change and eastern Africa: a review of impact on major crops , 2015 .

[16]  G. Gregorio,et al.  Genetic variation in Southern USA rice genotypes for seedling salinity tolerance , 2015, Front. Plant Sci..

[17]  John T. Lovell,et al.  Exploiting Differential Gene Expression and Epistasis to Discover Candidate Genes for Drought-Associated QTLs in Arabidopsis thaliana , 2015, Plant Cell.

[18]  M. A. Rahman,et al.  Mapping of Quantitative Trait Loci Associated with Reproductive‐Stage Salt Tolerance in Rice , 2015 .

[19]  David Wheeler,et al.  Climate Change, Soil Salinity, and the Economics of High-Yield Rice Production in Coastal Bangladesh , 2014 .

[20]  M. Rahman,et al.  Unique Genotypic Differences Discovered among Indigenous Bangladeshi Rice Landraces , 2014, International journal of genomics.

[21]  M. Tester,et al.  Salt resistant crop plants. , 2014, Current opinion in biotechnology.

[22]  Amarjeet Singh,et al.  Genome‐wide expressional and functional analysis of calcium transport elements during abiotic stress and development in rice , 2014, The FEBS journal.

[23]  Jennifer M. Dechaine,et al.  QTL architecture of reproductive fitness characters in Brassica rapa , 2014, BMC Plant Biology.

[24]  N. Tuteja,et al.  OsACA6, a P-type IIB Ca²⁺ ATPase promotes salinity and drought stress tolerance in tobacco by ROS scavenging and enhancing the expression of stress-responsive genes. , 2013, The Plant journal : for cell and molecular biology.

[25]  Jason A. Corwin,et al.  Cytoplasmic genetic variation and extensive cytonuclear interactions influence natural variation in the metabolome , 2013, eLife.

[26]  Kenneth L. McNally,et al.  New allelic variants found in key rice salt-tolerance genes: an association study. , 2013, Plant biotechnology journal.

[27]  Ji Huang,et al.  Identification of QTLs with main, epistatic and QTL × environment interaction effects for salt tolerance in rice seedlings under different salinity conditions , 2012, Theoretical and Applied Genetics.

[28]  C. Caldana,et al.  Growth, photosynthetic activity, and potassium and sodium concentration in rice plants under salt stress , 2012 .

[29]  F. Maathuis,et al.  Rice cultivars with differing salt tolerance contain similar cation channels in their root cells , 2012, Journal of experimental botany.

[30]  Bhim Adhikari,et al.  Vulnerability and adaptation to climate change: A review of local actions and national policy response , 2012 .

[31]  Zhikang Li,et al.  Identification of salt-tolerant QTLs with strong genetic background effect using two sets of reciprocal introgression lines in rice. , 2012, Genome.

[32]  Xin Lu,et al.  Cytonuclear epistatic quantitative trait locus mapping for plant height and ear height in maize , 2012, Molecular Breeding.

[33]  L. Tian,et al.  Identification of quantitative trait loci associated with salt tolerance at seedling stage from Oryza rufipogon. , 2011, Journal of genetics and genomics = Yi chuan xue bao.

[34]  Md. Mizanur Rahman,et al.  Characterizing the Saltol Quantitative Trait Locus for Salinity Tolerance in Rice , 2010, Rice.

[35]  F. Roux,et al.  Cytoplasmic phylogeny and evidence of cyto-nuclear co-adaptation in Arabidopsis thaliana. , 2010, The Plant journal : for cell and molecular biology.

[36]  A. Rezai,et al.  QTLs mapping of physiological traits related to salt tolerance in young rice seedlings , 2009, Biologia Plantarum.

[37]  I. Bancroft,et al.  Unraveling the Complex Trait of Crop Yield With Quantitative Trait Loci Mapping in Brassica napus , 2009, Genetics.

[38]  M. Islam,et al.  Genetic analysis of salinity tolerance in rice , 2009 .

[39]  Zhikang Li,et al.  Dissection of genetic overlap of salt tolerance QTLs at the seedling and tillering stages using backcross introgression lines in rice , 2008, Science in China Series C: Life Sciences.

[40]  A. Rathore,et al.  Reproductive stage tolerance to salinity and alkalinity stresses in rice genotypes , 2008 .

[41]  Lei Wang,et al.  Natural variation in Ghd7 is an important regulator of heading date and yield potential in rice , 2008, Nature Genetics.

[42]  M. Tester,et al.  Mechanisms of salinity tolerance. , 2008, Annual review of plant biology.

[43]  S. Iida,et al.  Inherited maternal effects on the drought tolerance of a natural hybrid aquatic plant, Potamogeton anguillanus , 2007, Journal of Plant Research.

[44]  B. Mangin,et al.  Developmental Genes Have Pleiotropic Effects on Plant Morphology and Source Capacity, Eventually Impacting on Seed Protein Content and Productivity in Pea1[W][OA] , 2007, Plant Physiology.

[45]  A. Kilian,et al.  Diversity arrays technology (DArT) for high-throughput profiling of the hexaploid wheat genome , 2006, Theoretical and Applied Genetics.

[46]  A. Kamińska,et al.  Dissecting a wheat QTL for yield present in a range of environments: from the QTL to candidate genes. , 2006, Journal of experimental botany.

[47]  S. A. Haque SALINITY PROBLEMS AND CROP PRODUCTION IN COASTAL REGIONS OF BANGLADESH , 2006 .

[48]  S. Luan,et al.  A rice quantitative trait locus for salt tolerance encodes a sodium transporter , 2005, Nature Genetics.

[49]  M. Islam,et al.  Genetic variation in microsatellite DNA, physiology and morphology of coastal saline rice (Oryza sativa L.) landraces of Bangladesh , 2004, Plant and Soil.

[50]  G. Gregorio,et al.  Genetic analysis of salinity tolerance in rice (Oryza sativa L.) , 1993, Theoretical and Applied Genetics.

[51]  M. Yano,et al.  QTLs for Na+ and K+ uptake of the shoots and roots controlling rice salt tolerance , 2004, Theoretical and Applied Genetics.

[52]  J. Staub,et al.  Inheritance of Chilling Injury: A Maternally Inherited Trait in Cucumber , 2003 .

[53]  Hao Wu,et al.  R/qtl: QTL Mapping in Experimental Crosses , 2003, Bioinform..

[54]  M. Tester,et al.  Na+ tolerance and Na+ transport in higher plants. , 2003, Annals of botany.

[55]  G. Gregorio,et al.  SALINITY TOLERANCE OF RICE DURING REPRODUCTIVE DEVELOPMENT AND ASSOCIATION WITH TOLERANCE AT THE SEEDLING STAGE , 2003 .

[56]  Z. Abdullah,et al.  Causes of sterility in seed set of rice under salinity stress , 2001 .

[57]  L. Zeng,et al.  Salinity Effects on Seedling Growth and Yield Components of Rice , 2000 .

[58]  S. Lutts,et al.  Changes in plant response to NaCl during development of rice (Oryza sativa L.) varieties differing in salinity resistance , 1995 .

[59]  D. Heenan,et al.  Salinity tolerance in rice varieties at different growth stages , 1988 .

[60]  T. Yabuno,et al.  Breeding for Saline-resistant Varieties of Rice : I. Variability for Salt Tolerance among Some Rice Varietles , 1972 .

[61]  中尾 佐助,et al.  Breeding for Saline-resistant Varieties of Rice : I. Variability for Salt Tolerance among Some Rice Varietles , 1972 .

[62]  J. Cock,et al.  Laboratory manual for physiological studies of rice , 1971 .

[63]  L. Bernstein,et al.  Salinity Effects at Several Growth Stages of Rice1 , 1959 .