History and Current Status of Sugarcane Breeding, Germplasm Development and Molecular Biology in India

[1]  A. A. Abdul Hamid,et al.  Virtual Screening for Potential Inhibitors of Human Hexokinase II for the Development of Anti-Dengue Therapeutics , 2020, Biotech (Basel (Switzerland)).

[2]  S. Ramalingam,et al.  Ectopic expression of DJ-1/PfpI domain containing Erianthus arundinaceus Glyoxalase III (EaGly III) enhances drought tolerance in sugarcane , 2020, Plant Cell Reports.

[3]  G. Hemaprabha,et al.  ASSESSMENT OF BREEDING METHODS AND PARENTAL VALUE OF CO CANES DEVELOPED DURING 1918 - 2017 , 2020, Journal of Sugarcane Research.

[4]  H. Rahman,et al.  CHARACTERIZATION AND IN SILICO ANALYSES OF RTCS GENE FROM SUGARCANE ENCODING LOB PROTEIN FAMILY OF TRANSCRIPTION FACTORS: A KEY REGULATOR OF SHOOT-BORNE ROOT INITIATION , 2020, Journal of Sugarcane Research.

[5]  R. Valarmathi,et al.  Isolation, characterization and expression analysis of novel water deficit stress-responsive DEEPER ROOTING 1 (DRO1) gene from drought-tolerant Erianthus arundinaceus , 2020, Journal of Sugarcane Research.

[6]  K. Mohanraj,et al.  EVALUATION OF INTRA-SPECIFIC HYBRIDS OF SACCHARUM OFFICINARUM FOR YIELD, QUALITY AND INCIDENCE OF YELLOW LEAF DISEASE , 2020, Journal of Sugarcane Research.

[7]  Swathik Clarancia Peter,et al.  Isolation, characterization and expression analysis of stress responsive plant nuclear transcriptional factor subunit (NF-YB2) from commercial Saccharum hybrid and wild relative Erianthus arundinaceus , 2020, 3 Biotech.

[8]  M. Manickavasagam,et al.  Isolation and Characterization of Nuclear Localized Abiotic Stress Responsive Cold Regulated Gene 413 (SsCor413) from Saccharum spontaneum , 2020, Plant Molecular Biology Reporter.

[9]  Nam V. Hoang,et al.  Root transcriptome analysis of Saccharum spontaneum uncovers key genes and pathways in response to low-temperature stress , 2020 .

[10]  M. Manickavasagam,et al.  Exogenous polyamines enhance somatic embryogenesis and Agrobacterium tumefaciens-mediated transformation efficiency in sugarcane (Saccharum spp. hybrid) , 2019, In Vitro Cellular & Developmental Biology - Plant.

[11]  K. Kadirvelu,et al.  Isolation and characterization of water-deficit stress-responsive α-expansin 1 (EXPA1) gene from Saccharum complex , 2019, 3 Biotech.

[12]  G. Hemaprabha,et al.  Genetic diversity and population structure among 133 elite genotypes of sugarcane (Saccharum spp.) for use as parents in sugarcane varietal improvement , 2018, 3 Biotech.

[13]  V. Dhandapani,et al.  Differential gene expression profiling through transcriptome approach of Saccharum spontaneum L. under low temperature stress reveals genes potentially involved in cold acclimation , 2018, 3 Biotech.

[14]  K. Mohanraj,et al.  Characterization of an intergeneric hybrid of Erianthus procerus × Saccharum officinarum and its backcross progenies , 2017, Euphytica.

[15]  M. Chakravarthi,et al.  De novo sequencing and transcriptome analysis of a low temperature tolerant Saccharum spontaneum clone IND 00-1037. , 2016, Journal of biotechnology.

[16]  K. Ramalakshmi,et al.  Cloning and characterization of a differentially regulated invertase inhibitor gene during sucrose accumulation in sugarcane , 2016 .

[17]  A. Philip,et al.  Vacuolar targeting of r-proteins in sugarcane leads to higher levels of purifiable commercially equivalent recombinant proteins in cane juice. , 2016, Plant biotechnology journal.

[18]  R. K. Singh,et al.  Identification of marker-trait associations for morphological descriptors and yield component traits in sugarcane , 2016, Physiology and Molecular Biology of Plants.

[19]  M. Chakravarthi,et al.  A novel PR10 promoter from Erianthus arundinaceus directs high constitutive transgene expression and is enhanced upon wounding in heterologous plant systems , 2015, Molecular Biology Reports.

[20]  M. Chakravarthi,et al.  Truncated Ubiquitin 5′ Regulatory Region from Erianthus arundinaceus Drives Enhanced Transgene Expression in Heterologous Systems , 2015, Molecular Biotechnology.

[21]  C. Mahadevaiah,et al.  Molecular identification and genetic improvement vis-à-vis comparison of yield and quality in different generations of Erianthus arundinaceus , E. bengalense and Saccharum spontaneum cyto-nuclear genome introgressed sugarcane , 2015 .

[22]  D. Pandey,et al.  Marker-trait association study for sucrose and yield contributing traits in sugarcane (Saccharum spp. hybrid) , 2015, Euphytica.

[23]  M. Chakravarthi,et al.  Erianthus arundinaceus HSP70 (EaHSP70) overexpression increases drought and salinity tolerance in sugarcane (Saccharum spp. hybrid). , 2015, Plant science : an international journal of experimental plant biology.

[24]  N. Tuteja,et al.  Introduction of Pea DNA Helicase 45 into Sugarcane (Saccharum spp. Hybrid) Enhances Cell Membrane Thermostability and Upregulation of Stress-Responsive Genes Leads to Abiotic Stress Tolerance , 2015, Molecular Biotechnology.

[25]  G. Hemaprabha,et al.  Saccharum and Erianthus specific markers based on drought and sucrose specific candidate genes for hybrid identification. , 2015 .

[26]  N. Tuteja,et al.  Overexpression of EaDREB2 and pyramiding of EaDREB2 with the pea DNA helicase gene (PDH45) enhance drought and salinity tolerance in sugarcane (Saccharum spp. hybrid) , 2015, Plant Cell Reports.

[27]  C. Mahadevaiah,et al.  Genetic Confirmation and Field Performance Comparison for Yield and Quality Among Advanced Generations of Erianthus arundinaceus, E. bengalense and Saccharum spontaneum Cyto-Nuclear Genome Introgressed Sugarcane Intergeneric Hybrids , 2014, Sugar Tech.

[28]  R. Devarumath,et al.  Single strand conformation polymorphism of genomic and EST-SSRs marker and its utility in genetic evaluation of sugarcane , 2014, Physiology and Molecular Biology of Plants.

[29]  G. Hemaprabha,et al.  Sugarcane Specific Drought Responsive Candidate Genes Belonging to ABA Dependent Pathway Identified from Basic Species Clones of Saccharum sp. and Erianthus sp. , 2014, Sugar Tech.

[30]  G. Hemaprabha,et al.  Sugarcane-specific drought responsive candidate genes belonging to ABA-independent pathway identified from tolerant and susceptible clones of Saccharum and Erianthus species , 2014 .

[31]  R. Devarumath,et al.  Functional Analysis of the Potential Enzymes Involved in Sugar Modulation in High and Low Sugarcane Cultivars , 2014, Applied Biochemistry and Biotechnology.

[32]  A. Tyagi,et al.  Development, cross-species/genera transferability of novel EST-SSR markers and their utility in revealing population structure and genetic diversity in sugarcane. , 2013, Gene.

[33]  G. Hemaprabha,et al.  MOLECULAR FINGERPRINTING OF RECENTLY NOTIFIED SUGARCANE (SACCHARUM L.) VARIETIES USING STMS MARKERS , 2013 .

[34]  K. Gopinath,et al.  5′ Regulatory region of ubiquitin 2 gene from Porteresia coarctata makes efficient promoters for transgene expression in monocots and dicots , 2013, Plant Cell Reports.

[35]  D. L. Lavanya,et al.  Identification of a STMS marker for sucrose content in sugarcane (Saccharum spp.) , 2012 .

[36]  R. Shanthi,et al.  Genetic stocks for early high sugar content generated over two selection cycles in sugarcane , 2012 .

[37]  D. Theertha Prasad,et al.  Functional characterization of sugarcane MYB transcription factor gene promoter (PScMYBAS1) in response to abiotic stresses and hormones , 2011, Plant Cell Reports.

[38]  R. Viswanathan,et al.  Disease Scenario and Management of Major Sugarcane Diseases in India , 2011, Sugar Tech.

[39]  R. Sindhu,et al.  Molecular Diversity in Sugarcane Hybrids (Saccharum spp. Complex) Grown in Peninsular and East Coast Zones of Tropical India , 2011, Sugar Tech.

[40]  R. Singh,et al.  Analysis of Genetic Differentiation and Phylogenetic Relationships among Sugarcane Genotypes Differing in Response to Red Rot , 2011, Sugar Tech.

[41]  P. Verma,et al.  Functional analysis of sucrose phosphate synthase (SPS) and sucrose synthase (SS) in sugarcane (Saccharum) cultivars. , 2011, Plant biology.

[42]  R. Sindhu,et al.  Genetic diversity in sugarcane hybrids (Saccharum spp complex) grown in tropical India based on STMS markers , 2011, Journal of Plant Biochemistry and Biotechnology.

[43]  A. Selvi,et al.  EXPRESSION PROFILING OF GENES INVOLVED IN SUCROSE METABOLISM IN DIFFERENT SACCHARUM SPP. AND COMMERCIAL SUGARCANE HYBRIDS , 2011 .

[44]  P. Singh,et al.  Genetic diversity analysis of Saccharum spontaneum germplasm using SSR-SSCP and RAPD markers. , 2011 .

[45]  R. Sharma,et al.  Single-Strand Conformational Polymorphism of EST-SSRs: A Potential Tool for Diversity Analysis and Varietal Identification in Sugarcane , 2011, Plant Molecular Biology Reporter.

[46]  V. Y. Patade,et al.  Profiling of culture-induced variation in sugarcane plants regenerated via direct and indirect somatic embryogenesis by using transposon-insertion polymorphism , 2010, Sugar Tech.

[47]  N. Subramonian,et al.  Genetic transformation and pyramiding of aprotinin-expressing sugarcane with cry1Ab for shoot borer (Chilo infuscatellus) resistance , 2010, Plant Cell Reports.

[48]  D. L. Lavanya,et al.  Genetic diversity within sucrose rich parental pool of sugarcane and its application in sugarcane breeding through hybridization and selection. , 2010 .

[49]  N. V. Nair,et al.  Characterization of Resistance Gene Analog Polymorphisms in sugarcane cultivars with varying levels of red rot resistance. , 2010 .

[50]  Vikrant Gupta,et al.  The water-deficit stress- and red-rot-related genes in sugarcane , 2010, Functional & Integrative Genomics.

[51]  D. T. Prasad,et al.  Agrobacterium mediated transformation of sugarcane for borer resistance using Cry 1Aa3 gene and one-step regeneration of transgenic plants , 2009, Sugar Tech.

[52]  N. Subramonian,et al.  Transmission and expression of transgenes in progeny of sugarcane clones with cry1Ab and aprotinin genes , 2009, Sugar Tech.

[53]  P. Rahul,et al.  Interaction between sugarcane and Colletotrichum falcatum causing red rot: Understanding disease resistance at transcription level , 2009, Sugar Tech.

[54]  G. Thomas,et al.  Engineering sugarcane cultivars with bovine pancreatic trypsin inhibitor (aprotinin) gene for protection against top borer (Scirpophaga excerptalis Walker) , 2009, Plant Cell Reports.

[55]  S. P. Singh,et al.  Identification of new microsatellite DNA markers for sugar and related traits in sugarcane , 2008, Sugar Tech.

[56]  R. Devarumath,et al.  An assessment of somaclonal variation in micropropagated plants of sugarcane by RAPD markers , 2008, Sugar Tech.

[57]  S. Virupakshi,et al.  ISSR Analysis of chloroplast and mitochondrial genome can indicate the diversity in sugarcane genotypes for red rot resistance , 2008, Sugar Tech.

[58]  P. Govindaraj,et al.  Assessment of genetic relationships and marker identification in sugarcane cultivars with different levels of top borer resistance , 2008, Sugar Tech.

[59]  R. Devarumath,et al.  Field performance and RAPD analysis to evaluate genetic fidelity of tissue culture raised plantsvis-à-vis conventional setts derived plants of sugarcane , 2007, Sugar Tech.

[60]  S. Srivastava,et al.  Assessment of genetic purity of micropropagated plants of sugarcane by isozyme and RAPD analysis , 2005, Sugar Tech.

[61]  P. Govindaraj,et al.  Genetic diversity analysis of indian sugarcane breeding pool based on sugarcane specific STMS markers , 2005, Sugar Tech.

[62]  T. Sharma,et al.  Informative genomic microsatellite markers for efficient genotyping applications in sugarcane , 2008, Theoretical and Applied Genetics.

[63]  N. V. Nair,et al.  Effect of cytoplasmic diversity on performance of sugarcane hybrids , 2007 .

[64]  P. Govindaraj,et al.  STMS markers for fingerprinting of varieties and genotypes sugarcane (Saccharum spp.) , 2006 .

[65]  B. Ram,et al.  Selection for juice quality and red rot disease index in sugarcane (Saccharum of ficinarum L.) , 2006 .

[66]  N. V. Nair,et al.  Use of SSR markers for the identification of interspecific and intergeneric hybrids of Saccharum. , 2006 .

[67]  N. V. Nair,et al.  Analysis of Genetic Diversity Among Saccharum spontaneum L. From Four Geographical Regions of India, Using Molecular Markers , 2006, Genetic Resources and Crop Evolution.

[68]  N. V. Nair,et al.  Genomic Constitution and Genetic Relationship among the Tropical and Subtropical Indian Sugarcane Cultivars Revealed by AFLP , 2005 .

[69]  G. Hemaprabha,et al.  Genetic divergence of sugar yield and its components in flowering type Saccharum officinarum clones , 2005 .

[70]  Neha Singh,et al.  Combining ability and heterosis for disease index of red rot in sugarcane (Saccharum of ficinarum L.) , 2005 .

[71]  B. Ram Estimation of genetic parameters in different environments and their implications in sugarcane breeding , 2005 .

[72]  N. V. Nair,et al.  AFLP Analysis of the Phenetic Organization and Genetic Diversity in the Sugarcane Complex, Saccharum and Erianthus , 2006, Genetic Resources and Crop Evolution.

[73]  N. V. Nair,et al.  Characterization of Intergeneric Hybrids of Saccharum using Molecular Markers , 2006, Genetic Resources and Crop Evolution.

[74]  M. Manickavasagam,et al.  Agrobacterium-mediated genetic transformation and development of herbicide-resistant sugarcane (Saccharum species hybrids) using axillary buds , 2004, Plant Cell Reports.

[75]  N. V. Nair,et al.  Molecular diversity in Indian sugarcane cultivars as revealed by randomly amplified DNA polymorphisms , 2002, Euphytica.

[76]  N. V. Nair,et al.  Analysis of genetic diversity and phylogeny in Saccharum and related genera using RAPD markers , 1999, Genetic Resources and Crop Evolution.

[77]  J. Thuljaram Rao,et al.  Relative effects of parents on some economic characters in sugarcane , 1967, Euphytica.

[78]  Sanjeev Kumar,et al.  Genetic divergence in Saccharum spp. germplasm under sub-tropics , 2004 .

[79]  N. V. Nair,et al.  Evaluation of maize microsatellite markers for genetic diversity analysis and fingerprinting in sugarcane. , 2003, Genome.

[80]  V. Sharma,et al.  Screening of sugarcane clones for sugar yield and its traits under abiotic stresses , 2003 .

[81]  G. Hemaprabha,et al.  Genetic similarity among five species of Saccharum based on isozyme and RAPD markers , 2001 .

[82]  G. Hemaprabha,et al.  Combining ability and heterosis for stalk yield and juice quality traits in progenies of sugarcane clones involving Saccharum robustum. , 2000 .

[83]  N. Kulshreshtha,et al.  Divergence studies among interspecific hybrids of sugarcane (Saccharum sp.). , 2000 .

[84]  G. Hemaprabha,et al.  Genetic variance for five traits in twelve hybrid groups of Saccharum sp. hybrids , 1998 .

[85]  G. Hemaprabha,et al.  Nature and pattern of genetic divergence of sugar yield and its components in the progenies of Saccharum barberi , 1998 .

[86]  G. Hemaprabha,et al.  Genetic divergence of sugar yield contributing characters in Saccharum robustum brandes et jeswiet ex grassl. , 1997 .

[87]  B. Ram,et al.  Response to indirect selection in ratoon of sugarcane seedlings , 1997 .

[88]  G. Hemaprabha,et al.  influence of noble and commercial hybrid clones on economic traits in mobilization of Saccharum species , 1995 .

[89]  G. Hemaprabha,et al.  Genetic divergence of stalk yield and juice quality and their components in flowering clones of Saccharum officinarum , 1993 .

[90]  B. Ram Genetic divergence of stalk yield and juice quality and their components in sugarcane , 1992 .

[91]  G. Hemaprabha,et al.  Genetic variability in interspecific progenies in sugar cane (Saccharum spp.) , 1992 .

[92]  G. Hemaprabha,et al.  Character interrelationships in cultivar x species progenies in sugarcane , 1991 .

[93]  G. Hemaprabha,et al.  Variability pattern in cultivar X species progenies in sugarcane. , 1990 .

[94]  Harpreet Singh,et al.  Combining Ability in Sugarcane , 1987 .

[95]  B. Natarajan,et al.  Heterosis in some divergent sugarcane clones , 1986 .

[96]  A. Ethirajan,et al.  Selection studies on sugarcane seedling populations. , 1980 .

[97]  S. Mukherjee Origin and Distribution of Saccharum , 1957, Botanical Gazette.

[98]  N. Dutt,et al.  Coimbatore canes in cultivation. , 1956 .

[99]  N. Dutt The present Cane varietal position in India. , 1950 .

[100]  Pusa. Scientific Reports of the Imperial Institute of Agricultural Research, Pusa (including the Reports of the Imperial Dairy Expert, Physiological Chemist and Sugarcane Expert) 1932-1933. , 1936 .