Abstract
Sesame (Sesamum indicum L.) is an important oilseed crop unique with high contents of unsaturated fatty acids and antioxidants. Sesame originated from tropical regions and possesses high tolerance to drought and infertility conditions, while the resistance level to biotic stresses (especially fungal diseases) is relatively low. We describe here the major diseases and pests causing significant damage to sesame production and the progresses made in the genetics and breeding research for disease resistance in sesame. The application of genomics-assisted breeding in sesame is also deliberated.
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References
Ali GM, Yasumoto S, Seki-Katsuta M (2007) Assessment of genetic diversity in sesame (Sesamum indicum L.) detected by amplified fragment length polymorphism markers. Elect J Biotechnol 10:12–23
Amini F, Saeidi G, Arzani A (2007) Study of genetic diversity in safflower genotypes using agro morphological traits and RAPD markers. Euphytica 163:21–30
Armstrong JK, Armstrong GM (1950) A fusarium wilt of sesame in United States. Phyopathol J 40:785
Babu BK, Saikia R, Arora DK (2010) Molecular characterization and diagnosis of Macrophomina phaseolina: a charcoal rot fungus. In: Gherbawy Y, Voigt K (eds) Molecular identification of fungi. Springer, Berlin, Heidelberg, pp 179–193
Baker R, Paulitz TC (1996) Theoretical basis for microbial interactions leading to biological control of soil-borne plant pathogens. In: Principles and practice of managing soilborne plant pathogens. The American Phytopathology Society, pp 50–79
Bakheit BR, Ismail AA, Elshiemy AA, Sedek FS (2000) Triple test cross analysis in four sesame crosses (Sesamum indicum L.). J Agri Sci 137:185–193
Baskaran RKM, Mahadevan NR, Sathiyanandam VKR, Thangavelu S (1997) Approaches for prevention and control of sesame pests. In: Sinha MP (ed) Recent advances in ecobiological research, vol II. A.P.H. Publishing Corporation, New Delhi, pp 133–143
Bedigian D (2004) Slimy leaves and oily seeds: distribution and use of wild relatives of sesame in Africa. Econ Bot 58(sp1):S3–S33
Bhat KV, Babrekar PP, Lakhanpaul S (1999) Study of genetic diversity in Indian and exotic sesame (Sesamum indicum L.) germplasm using random amplified polymorphic DNA (RAPD) markers. Euphytica 110:21–34
Chyan CL, Lee TTT, Liu CP, Yang YC, Tzen JTC et al (2005) Cloning and expression of a seed-specific mtallothione-like protein from sesame. Biosci Biotechnol Biochem 69:2319–2325
Dar AA, Mudigunda S, Mittal PK, Arumugam N (2017) Comparative assessment of genetic diversity in Sesamum indicum L. using RAPD and SSR markers. 3 Biotechnology 7:10
Deacon JW, Berry LA (2010) Biocontrol of soil-borne plant pathogens: concepts and their application. Pestic Sci 37:417–426
Didwania N (2019) Bio-intensive approaches in the management of fungal diseases of oil yielding crops. In: Khan MR, Mukhopadhyay AN, Pandey RN, Thakur MP, Singh D, Siddiqui MA, Akram M, Haque Z (eds) Bio-intensive approaches: application and effectiveness in plant diseases management. Indian Phytopathological Society, New Delhi, India, pp 333–356
Dinakaran D, Mohammed SEN (2001) Identification of resistant sources to root rot of sesame caused by Macrophomina phaseolina (Tassi.) Goid. Sesame Safflower Newsl 16:68–71
Dixit AA, Jin MH, Chung JW, Yu JW, Chung HK et al (2005) Development of polymorphic microsatellite markers in sesame (Sesamum indicum L.). Mol Ecol Notes 5:736–738
Dolle UV, Hegde RK (1984) Incidence of Alternaria leaf blight of sesame in Karnataka. Plant Pathol Newsl 2(1):8
Dolle UV, Hegde RK (1984) Epidemiology and control of leaf blight of sesame caused by Alternaria sesami (Kawamura) Mohanty & Behera. Plant Pathol Newslt 2:10
Dossa K, Diouf D, Cissé N (2016) Genome-wide investigation of Hsf genes in sesame reveals their segmental duplication expansion and their active role in drought stress response. Front Plant Sci 7:1522
Dossa K, Xin W, Li D, Fonceka D, Zhang Y et al (2016) Insight into the AP2/ERF transcription factor superfamily in sesame and expression profiling of DREB subfamily under drought stress. BMC Plant Biol 16:171
Du H, Zhang H, Wei L, Li C, Duan Y et al (2019) A high-density genetic map constructed using specific length amplified fragment (SLAF) sequencing and QTL mapping of seed-related traits in sesame (Sesamum indicum L.). BMC Plant Biol 19(1):1–20
Duan Y, Qu W, Chang S, Li C, Miao H et al (2020) Identification of pathogenic groups and pathogenic molecular characterization of Fusarium oxysporum f. sp. sesami in China. Phytopathology 110(5):1093–1104
Dutta J, Gupta S, Thakur D, Handique P (2015) First report of Nigrospora leaf blight on tea caused by Nigrospora sphaerica in India. Plant Dis 99:417
Elad Y, Pertot I (2014) Climate change impacts on plant pathogens and plant diseases. J Crop Improv 28:99–139
El-Bramawy MAES, Wahid A (2006) Field resistance of crosses of sesame (Sesamum indicum L.) to charcoal root rot caused by Macrophomina phaseolina (Tassi.) goid. Plant Protec Sci 42:66–72
El-Bramawy MAES, Shaban AWI (2007) Nature of gene action for yield, yield components and major diseases resistance in sesame (Sesamum indicum L.). Res J Agric Biol Sci 3(6): 821–826
El-Bramawy MAES, El-Hendawy SES, Amin Shaban WI (2008) Assessing the suitability of morphological and phenological traits to screen sesame genotypes for Fusarium wilt and charcoal rot disease resistance. J Plant Protec Res 48(4):397–410
Elewa IS, Mostafa MH, Sahab AF, Ziedan EH (2011) Direct effect of biocontrol agents on wilt and root-rot diseases of sesame. Arch Phytopathol Plant Protec 44(5):493–504
El-Fawy MM, El-Said MAA (2018) Effect of foliar application of some zinc and phosphorus sources on controlling helminthosporium leaf spot disease and production of sesame. J Plant Protec Pathol 9:201–207
El-Shakhess SAM, Khalifa MMA (2007) Combining ability and heterosis for yield, yield components, charcoal-rot and Fusarium wilt diseases in sesame. Egypt J Plant Breed 11(1):351–371
El-Shakhess, Sammar AM (1998) Inheritance of some economic characters and disease reaction in some sesame (Sesamum indicum L.). PhD thesis, Cario University, Cario, Egypt
El-Shazly MS, Wahid OAA, El-Ashry MA, Ammar SM, El-Barmawy MA (1999) Evaluation of resistance to Fusarium wilt disease in sesame germplasm. Intl J Pest Manage 45:207–210
Ercan AG, Taşkin KM, Turgut K, Bilgen M (2002) Characterization of Turkish sesame (Sesamum indicum L.) landraces using agronomic and morphologic descriptors. Akdeniz Üniv. Ziraat Fakűltesi Dergisi 15:45–52
Ercan AG, Taskin M, Turgut K (2004) Analysis of genetic diversity in Turkish sesame (Sesamum indicum L.) populations using RAPD markers. Genet Resour Crop Evol 51:599–607
Eshwarappa V (2010) F2 bulk segregants analysis for Alternaria disease resistance using RAPD markers in sesame (Sesamum indicum L.). Thesis, University of Agricultural Sciences, Dharwad Karnataka, India
Ghini R, Bettiol W, Hamada E (2011) Diseases in tropical and plantation crops as affected by climate changes: current knowledge and perspectives. Plant Pathol 60:122–132
Gnanasekaran M, Jebaraj S, Gunasekaran M, Muthuramu S (2010) Breeding for seed yield and shoot webber (Antigastra catalaunalis D.) resistance in sesame (Sesamum indicum L.). Elect J Plant Breed 1:1270–1275
Goudappagoudar R, Lokesha R, Vanishree (2014) Inheritance of Alternaria blight resistance in sesame. Intl J Plant Sci 8(1):110–112
Hata N, Hayashi Y, Okazawa A, Ono E, Satake H et al (2010) Comparison of sesamin contents and CYP81Q1 gene expressions in aboveground vegetative organs between two Japanese sesame (Sesamum indicum L.) varieties differing in seed sesamin contents. Plant Sci 178:510–516
Hernan EL, Petr K (2006) Genetic relationship and diversity in a sesame (Sesamum indicum L.) germplasm collection using amplified fragment length polymorphism (AFLP). BMC Genet 7:10
Hsiao ESL, Lin LJ, Li FY, Wang MMC, Liao MY et al (2006) Gene families encoding isoforms of two major sesame seed storage proteins, 11S globulin and 2S albumin. J Agri Food Chem 54:9544–9550
Isshiki S, Umezake T (1997) Genetic variations of isozymes in cultivated sesame. Euphytica 93:375–377
Jana T, Sharma TR, Singh NK (2005) SSR-based detection of genetic variability in the charcoal root rot pathogen Macrophomina phaseolina. Mycol Res 109:81–86
Jin UH, Lee JW, Chung YS, Lee JH, Yi YB et al (2001) Characterization and temporal expression of a ω-6 fatty acid desaturase cDNA from sesame (Sesamum indicum L.) seeds. Plant Sci 161:935–941
Kabi M, Baisakh B, Das M, Tripathy SK (2019) Phenotyping of sesame (Sesamum indicum L.) genotypes for powdery mildew resistance. J Pharmacogn Phytochem 8:1865–1867
Kang CW, Lee JI, Choi BH (1994) Mutation breeding for disease resistance and high yield of sesame (Sesamum indicum L.) in Korea. Tech Doc 1:72–89
Karunanithi K (1996) Efficacy of fungicides in the control of powdery mildew of sesame caused by Oidium acanthospermi. Indian J Mycol Plant Pathol 26:229–230
Kavak H, Boydak E (2006) Screening of the resistance levels of 26 sesame breeding lines of Fusarium wilt disease. Plant Pathol J 5:157–160
Khalifa MMA (2003) Pathological studies on charcoal-rot disease of sesame. PhD Thesis, Zagazig University, Benha Branch, England
Kim DH, Zur G, Danin-Poleg Y, Lee SW, Shim KB et al (2002) Genetic relationships of sesame germplasm collection as revealed by inter-simple sequence repeats. Plant Breed 121:259–262
Kim MJ, Go YS, Lee SB, Kim YS, Shin JS et al (2010) Seed-expressed casein kinase I acts as a positive regulator of the SeFAD2 promoter via phosphorylation of the SebHLH transcription factor. Plant Mol Biol 73:425–437
Kim MJ, Kim JK, Shin JS, Suh MC (2007) The SebHLH transcription factor mediates trans-activation of the SeFAD2 gene promoter through binding to E-and G-box elements. Plant Mol Biol 64:453–466
Kolte SJ (1996) Diseases. In: Chopra VL, Prakash S (eds) Oilseeds and vegetable brassicas. An Indian perspective. Oxford and IBH Publishing Co. Pvt. Ltd., New Delhi, India, pp 187–240
Krishnaswami S, Venkata Rao A, Appaduari R (1983) National seminar on breeding crop plants for resistance to pests and diseases, 25–27th May. Coimbatore, India
Laurentin HE, Petr K (2006) Genetic relationship and diversity in a sesame (Sesamum indicum L.) germplasm collection using amplified fragment length polymorphism (AFLP). BMC Genet 7:10
Laurentin HE, Ratzinger A, Karlovsky P (2008) Relationship between metabolic and genomic diversity in sesame (Sesamum indicum L.). BMC Genet 9:250
Lee TTT, Chung MC, Kao YW, Wang CS, Chen LJ et al (2005) Specific expression of a sesame storage protein in transgenic rice bran. J Cereal Sci 41:23–29
Li C, Miao H, Wei L, Zhang T, Han X et al (2014) Association mapping of seed oil and protein content in Sesamum indicum L. using SSR markers. PLoS One 9:e105757
Li D, Dossa K, Zhang Y, Wei X, Wang L et al (2018) GWAS uncovers differential genetic bases for drought and salt tolerances in sesame at the germination stage. Genes 9:87
Li DH, Wang LH, Zhang YX, Lv HX, Qi XQ et al (2012) Pathogenic variation and molecular characterization of Fusarium species isolated from wilted sesame in China. Afr J Microbiol Res 6:149–154
Li HL, Miao HM, Zhang YX, Wei QC, Duan YH et al (2017) Structure and characteristics analysis of main toxin components of Fusarium Oxysporum f. sp. Sesami. Jiangsu Agric Sci 45:82–86
Li YD, Chen QM (1998) Studies on induced mutation and preliminary genetics of male sterile mutants in sesame (Sesamum indicum L.). Chin J Oil Crop Sci 20:24–27
Liang J, Sun J, Ye Y, Yan X, Yan T, et al. (2021) QTL mapping of PEG-induced drought tolerance at the early seedling stage in sesame using whole genome re-sequencing. PLoS One 16:e0247681
Lievens B, Rep M, Thomma BP (2008) Recent developments in the molecular discrimination of formae speciales of Fusarium oxysporum. Pest Manag Sci 64(8):781–788
Liu BH (1997) Statistical genomics: linkage. CRC Press, Boca Raton, FL, Mapping and QTL Analysis, p 648
Liu WP, Lv W, Han JM, Ren GX, Wen F et al (2017) Experimental study on the comprehensive prevention and control technology of sesame disease, Cordyceps sinensis. J Agric Sci Technol 8:189–192
Lubaina AS, Murugan K (2015) Evaluation of biological efficacy of Trichoderma species isolates against Alternaria leaf spot disease of sesame. Intl J Appl Biol Pharm Technol 6(1):17–24
Mahajan RK, Bisht IS, Dhillon BS (2007) Establishment of a core collection of world sesame (Sesamum indicum L.) germplasm accessions. Sabrao J Breed Genet 39:53–64
Mahmoud MF (2013) Induced plant resistance as a pest management tactic on piercing sucking insects of sesame crop. Arthropods 2:137–149
Mehetre SS, Ghatge RD, Lad SK (1994) Wild Sesamum mulayanum: a source of multiple disease resistance. Ann AgrRes 15:243–244
Mehta PP, Prasad RN (1976) Investigations on Alternaria sesami causing leaf blight of til. Proc Bihar Acad Agric Sci 24(1):104–109
Mei H, Liu Y, Du Z, Wu K, Cui CQ et al (2017) High-density genetic map construction and gene mapping of basal branching habit and number of flowers per leaf axil in sesame. Front Plant Sci 8:636
Miao H (2016) The genome of Sesamum indicum L. In: Plant and animal genome XXIV conference. Plant and animal genome, 9–13th January, San Diego, USA
Miao H, Zhang H (2014) The sesame genome project and sesame genome sequencing. Plant and animal genome XXII conference. Plant and animal genome, 10–15th January, San Diego, USA
Miao H, Zhang H, Wei L, Li C, Duan Y et al (2017) Tight linkage molecular marker SIFWR2145 for Fusarium wilt resistance gene in sesame seeds (Chinese patent, CN105177129B)
Miao HM, Chang SX, Zhang HY, Huang JY, Duan YH et al (2019) An evaluation technique of sesame resistance to Fusarium Wilt disease at vegetative stage. J Plant Genet Resour 21(2):330–337
Mihail J, Taylor (1995) Interpreting variability among isolates of Macrophomina phaseolina in pathogenicity, pycnidium production, and chlorate utilization. Can J Bot 73(10):1596–1603
Nayak GS, Samal T, Dohling PNK, Reshma M (2019) Impact of various IPM modules in the management of major insect pests of sesame under Bhubaneswar agro climatic condition. J Entomol Zool Stud 7:591–596
Nayan KA, Md RC, Tamina B, Rambilash M (2019) Integrated management of stem and root rot of sesame (Sesamum indicum L.) caused by Macrophomina phaseolina (Tassi) Goid. Intl J Current Microbiol Appl Sci 8:804–808
Pal BP (1945) Studies in hybrid vigor of sesame (Sesamum indicum L.). Indian J Genet Pl Br 5:106–121
Parsaeian M, Mirlohi A, Saeidi G (2011) Study of genetic variation in sesame (Sesamum indicum L.) using agro-morphological traits and ISSR markers. Russ J Genet 47:359–367
Pissard A, Arbizu C, Ghislain M, Faux AM, Bertin P (2008) Congruence between morphological and molecular markers inferred from the analysis of the intra-morphotype genetic diversity and the spatial structure of Oxalis tuberose Mol. Genetica 132:71–85
Poole DD (1956) Aerial stem rot of sesame caused by Helminthosporium sesami in Texas. Plant Dis Rep 40:235
Powell W, Machray GC, Provan J (1996) Polymorphism revealed by simple sequence repeats. Trends Plant Sci 1:215–222
Prathuangwong S, Yowabutra P (1997) Effects of bacterial leaf spot on yield, resistance, and seedborne infection of sesame in Thailand. In: Rudolph K, Burr TJ, Mansfield JW, Stead D, Vivian A, von Kietzell J (eds) Pseudomonas Syringae pathovars and related pathogens. In: Developments in plant pathology, vol 9. Springer, Dordrecht, pp 53–60
Qi YX, Zhang X, Pu JJ, Liu XM, Lu Y et al (2011) Morphological and molecular analysis of genetic variability within isolates of Corynespora cassiicola from different hosts. Eur J Plant Pathol 130:83–95
Qiu C, Zhang H, Chang S, Wei L, Miao H (2014) Laboratory detecting method for pathogenicity of Fusarium oxysporum Schl. f. sp. sesami isolates. Acta Phytopathol Sin 44:26–35
Rajput MA, Khan ZH, Jafri KA, Fazal Ali JA (1998) Field screening of sesame germplasm for resistance against charcoal rot (Macrophomina phaseolina). Sesame Safflower Newsl 13:63–66
Salahlou R, Safaie N, Shams-Bakhsh M (2016) Genetic diversity of Macrophomina phaseolina populations, the causal agent of sesame charcoal rot using inter-simple sequence repeat markers. J Agric Sci Technol-Iran 18:277–287
Saleh AA, Ahmed HU, Todd TC, Travers SE, Garrett KA (2010) Relatedness of Macrophomina phaseolina isolates from tallgrass prairie, maize, soybean and sorghum. Mol Ecol 19:79–91
Shinwari ZK (2011) Genetic diversity of sesame (Sesamum indicum L.) germplasm from Pakistan using RAPD markers. Pak J Bot 43:2153
Shivas RG, Brockway CA, Beilharz VC (1996) First record in Australia of Cercospora sesami and Pseudocercospora sesami, two important foliar pathogens of sesame. Australas Plant Pathol 25:212–212
Siddiq JA, Kalpana K, Ebenezar EG, Chinniah C (2019) In vitro efficacy of soluble silicon against sesame (Sesamum indicum L.) charcoal rot disease caused by Macrophomina phaseolina (Tassi) Goid. J Pharmacogn Phytochem 8:3532–3536
Sìlme RS, Çarğirgan MÌ (2010) Screening for resistance to Fusarium wilt in induced mutants and world collection of sesame under intensive management. Turk J Field Crops 15(1):89–93
Sunita J, Waghmare AD, Sarnobat DH (2019) Evaluation of local isolates of Trichoderma spp. against Macrophomina phaseolina. Intl J Univ Sci Technol 5:2454–7263
Thiyagu K, Kandasamy G, Manivannan N, Muralidharan V, Manoranjitham SK (2007) Identification of resistant genotypes to root rot disease (Macrophomina phaseolina) of sesame (Sesamum indicum L.). Agri Sci Digest 27:34–37
Tu LC, Liang XY, Wang WQ, Zheng YZ, Liu JR (1995) Studies on the genetic male sterile in sesame. Acta Agric Bor-Sin 10:34–39
Uncu AÖ, Frary A, Karlovsky P, Doganlar S (2016) High-throughput single nucleotide polymorphism (SNP) identification and mapping in the sesame (Sesamum indicum L.) genome with genotyping by sequencing (GBS) analysis. Mol Breed 36:173
Uncu AÖ, Gultekin V, Allmer J, Frary A, Doganlar S (2015) Genomic simple sequence repeat markers reveal patterns of genetic relatedness and diversity in sesame. Plant Genome-US 8:1–12
Venkata P, Rao R, Prasuna K, Anuradha G, Siddiq EA (2013) Molecular mapping and tagging of powdery mildew tolerance gene(s) in sesame (Sesamum indicum). Indian J Agri Sci 83:605–610
Vyas SC (1981) Diseases in Sesamum in India and their control. Pesticides 15:10
Wang L, Yu S, Tong C, Zhao Y, Liu Y et al (2014) Genome sequencing of the high oil crop sesame provides insight into oil biosynthesis. Genome Biol 15:R39
Wang L, Zhang Y, Zhu X, Zhu X, Li D et al (2017) Development of an SSR-based genetic map in sesame and identification of quantitative trait loci associated with charcoal rot resistance. Sci Rep 7:8349
Wang WQ, Liu JR, Tu LZ (1993) Study on the inheritance of resistance to Fusarium wilt in sesame. J Henan Agri Univ 27:84–89
Wazire NS, Patel JI (2016) Estimation of losses by leaf webber and capsule borer Antigastra catalaunalis (Duponchel) in sesamum. Indian J Entomol 78:184–185
Wei L, Miao H, Li C, Duan Y, Niu J et al (2014) Development of SNP and InDel markers via de novo transcriptome assembly in Sesamum indicum L. Mol Breed 34:2205–2217
Wei L, Zhang H, Zheng Y, Miao H, Zhang T et al (2009) A genetic linkage map construction for sesame (Sesamum indicum L.). Genes Genom 31:199–208
Wei QC, Miao HM, Wang XD, Zhang HY, Yuan QL et al (2018) Effects of Fusarium wilt disease stress on the quality of sesame seed and oil product. J Henan Agric Sci 47:70–77
Wei X, Wang L, Yu J, Zhang Y, Li D et al (2015) Genome-wide identification and analysis of the MADS-box gene family in sesame. Gene 569:66–76
Wu K, Liu H, Yang M, Tao Y, Ma H et al (2014) High-density genetic map construction and QTLs analysis of grain yield-related traits in sesame (Sesamum indicum L.) based on RAD-Seq technology. BMC Plant Biol 14:274
Wu K, Yang M, Liu H, Ye T, Mei J et al(2014) Genetic analysis and molecular characterization of Chinese sesame (Sesamum indicum L.) cultivars using insertion-deletion (InDel) and simple sequence repeat (SSR) markers. BMC Genet 5:35
Yu M, Liu H, Miao H, Tian B (2013) Cloning and analysis of NBS-type resistance genes in sesame against Macrophomina phaseolina. J Henan Agri Sci 42(10):74–78, 98
Yuan Q, Zhang H, Miao H, Duan Y, Wei Q et al (2018) Effects of water logging stress on the quality of sesame seed and oil product. Acta Agri Bor-Sin 33(2):202–208
Yukawa Y, Takaiwa F, Shoji K, Masuda K, Yamada K (1996) Structure and expression of two seed-specific cDNA clones encoding stearoyl-acyl carrier protein desaturase from sesame, Sesamum indicum L. Plant Cell Physiol 37:201–205
Zeng R (2006) Disease resistance in plants through mycorrhizal fungi induced allelochemicals. In: Inderjit and Mukerji KG (eds) Allelochemicals: biological control of plant pathogens and diseases. Springer, Dordrecht, pp 181–192
Zhang H, Miao H, Lei W, Qu L, Liu H et al (2013) Genome sequencing of the important oilseed crop Sesamum indicum L. Genome Biol 14:401
Zhang H, Miao H, Li C, Wei L, Duan Y et al (2016) Ultra-dense SNP genetic map construction and identification of SiDt gene controlling the determinate growth habit in Sesamum indicum L. Sci Rep 6:31556
Zhang H, Miao H, Wei L, Li C, Zhao R et al (2013b) Genetic analysis and QTL mapping of seed coat color in sesame (Sesamum indicum L.). PLoS One 8:e63898
Zhang H, Wei L, Miao H, Wang C (2012) Development and validation of genic-SSR markers in sesame by RNA-seq. BMC Genomics 13:316
Zhang HY, Miao HM, Ju M (2019) Potential for adaptation to climate change through genomic breeding in sesame. In: Kole C (ed) Genomic designing of climate-smart oilseed crops. Springer, Cham, Switzerland, pp 371–440
Zhang L, Wang Q, Lin YX (2018) Breeding of a new hybrid sesame variety Wanzhi 10 with high quality, high oil content and multi-resistance. J Anhui Agri Sci 46:24–26
Zhang X, Feng X (2006) Descriptors and data standard for sesame (Sesamum indicum L.). China Agriculture Press, ISBN 7-109-11015-X
Zhang XR, Chen KR, Peng J, Xu ZY (2004) The RAPD analysis and genetic diversity of selected sesame germplasms. Chin J Oil Crop Sci 26:34–37
Zhang Y, Wang L, Xin H, Li D, Ma C et al (2013) Construction of a high-density genetic map for sesame based on large scale marker development by specific length amplified fragment (SLAF) sequencing. BMC Plant Biol 13:141
Zhang YX, Zhang XR, Hua W, Wang LH, Che Z (2010) Analysis of genetic diversity among indigenous landraces from sesame (Sesamum indicum L.) core collection in China as revealed by SRAP and SSR markers. Genes Genom 32:207–215
Zhao H, Liu H, Yang X, Liu Y, Ni Y et al (2014) First report of Nigrospora leaf blight on sesame caused by Nigrospora sphaerica in China. Plant Dis 98(6):842
Zhao YZ, Liu HY (2008) The breeding and key cultivation points of hybrid sesame variety Zhongzhiza No. 1. World Agric 11:147–150
Zheng YZ, Zhang HY, Mei HX, Zhang TD, Wei SL et al (2003) Advances in Chinese hybrid sesame research. J Henan Agric Sci 11:17–19
Ziedan ES, Elewa I, Mostafa M, Sahab A (2011) Application of Mycorrhizae for controlling root diseases of sesame. J Plant Protec Res 51:355–361
Acknowledgements
This work was the Key Laboratory of Specific Oilseed Crops Genomics of Henan Province and financially supported by the earmarked fund for China Agriculture Research System (CARS-14), Henan Province Key Science and Technology Program (201300110600), Zhongyuan Science and Technology Innovation Talent Project (214200510020), the Henan Province Specific Professor Position Program (SPPP2020), and the Innovation Scientists and Technicians Troop Construction Projects of Henan Province (ISTTCPHP2016).
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Miao, H., Liu, H., Duan, Y., Zhang, H. (2022). Genomic Designing for Resistance to Biotic Stresses in Sesame. In: Kole, C. (eds) Genomic Designing for Biotic Stress Resistant Oilseed Crops. Springer, Cham. https://doi.org/10.1007/978-3-030-91035-8_6
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