Advanced search
Publication Cover
Journal of Plant Interactions Volume 18, 2023 - Issue 1
Submit an article Journal homepage
2,044
Views
1
CrossRef citations to date
0
Altmetric
Plant-Insect Interactions

Identification of quantitative trait loci associated with sorghum susceptibility to Asian stem borer damage

Cyprian Osindea Department of Plant Science, Microbiology and Biotechnology Makerere University, Kampala, Uganda;b Institute of Plant Science and Resources, Okayama University, Kurashiki, JapanView further author information
,
Wataru Sakamotob Institute of Plant Science and Resources, Okayama University, Kurashiki, JapanView further author information
,
Hiromi Kajiya-Kanegaec Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo, Japan;d Research Center for Agricultural Information Technology, National Agriculture and Food Research Organization, Tokyo, JapanView further author information
,
Islam S. Sobhyb Institute of Plant Science and Resources, Okayama University, Kurashiki, Japan;e Department of Plant Protection, Faculty of Agriculture, Suez Canal University, Ismailia, Egypt;f School of Biosciences, Cardiff University, Cardiff, UKView further author information
,
Arthur K. Tugumea Department of Plant Science, Microbiology and Biotechnology Makerere University, Kampala, UgandaView further author information
,
Anthony M. Nsubugaa Department of Plant Science, Microbiology and Biotechnology Makerere University, Kampala, UgandaView further author information
&
Ivan Galisb Institute of Plant Science and Resources, Okayama University, Kurashiki, JapanCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-9840-8845View further author information
ORCID Icon show all
Article: 2153182 | Received 17 Oct 2022, Accepted 24 Nov 2022, Published online: 29 Dec 2022

References

  • Ahmed MM, Sanders JH, Nell WT. 2000. New sorghum and millet cultivar introduction in Sub-Saharan Africa: impacts and research agenda. Agric Sys. 64:55–65.
  • Ali A, Khalil N, Abbas M, Tariq R, Zia-ullah HD. 2015. Plant traits as resistance influencing factors in maize against Chilo partellus (Swinhoe). J Entomol Zool Stud. 3:246–250.
  • Ananda GKS, Myrans H, Norton SL, Gleadow R, Furtado A, Henry RJ (2020) Wild sorghum as a promising resource for crop improvement. Front Plant Sci 11: 1108
  • Bai CM, Wang CY, Wang P, Zhu ZX, Cong L, Li D, Liu YF, Zheng WJ, Lu XC. 2017. QTL mapping of agronomically important traits in sorghum (Sorghum bicolor L.). Euphytica. 213:285.
  • Borrell AK, Mullet JE, George-Jaeggli B, van Oosterom EJ, Hammer GL, Klein PE, Jordan DR. 2014. Drought adaptation of stay-green sorghum is associated with canopy development, leaf anatomy, root growth, and water uptake. J Exp Bot. 65:6251–6263.
  • Broman KW, Wu H, Sen S, Churchill GA. 2003. R/qtl: QTL mapping in experimental crosses. Bioinformatics. 19:889–890.
  • Burow GB, Klein RR, Franks CD, Klein PE, Schertz KF, Pederson GA, Xin Z, Burke JJ. 2011. Registration of the BTx623/IS3620C recombinant inbred mapping population of sorghum. J Plant Regist. 5:141–145.
  • Casto AL, Mattison AJ, Olson SN, Thakran M, Rooney WL, Mullet JE. 2019. Maturity2, a novel regulator of flowering time in Sorghum bicolor, increases expression of SbPRR37 and SbCO in long days delaying flowering. PLoS One. 14:e0212154.
  • Crasta OR, Xu WW, Rosenow DT, Mullet J, Nguyen HT. 1999. Mapping of post-flowering drought resistance traits in grain sorghum: association between QTLs influencing premature senescence and maturity. Mol Gen Genet MGG. 262:579–588.
  • Cui L, Rui CH, Yang DB, Wang ZY, Yuan HZ. 2017. De novo transcriptome and expression profile analyses of the Asian corn borer (Ostrinia furnacalis) reveals relevant flubendiamide response genes. BMC Genomics. 18:20.
  • Diezel C, Kessler D, Baldwin IT. 2011. Pithy protection: Nicotiana attenuata’s jasmonic acid-mediated defenses Are required to resist stem-boring weevil larvae. Plant Physiol. 155:1936–1946.
  • Disasa T, Feyissa T, Admassu B, Fetene M, Mendu V. 2018. Mapping of QTLs associated with brix and biomass-related traits in sorghum using SSR markers. Sugar Tech. 20:275–285.
  • Elkins BH, Eubanks MD, Faris AM, Wang HH, Brewer MJ. 2022. Landscape complexity has mixed effects on an invasive aphid and its natural enemies in sorghum agroecosystems. Environ Entomol. 51:660–669.
  • El Mannai Y, Shehzad T, Okuno K. 2012. Mapping of QTLs underlying flowering time in sorghum [Sorghum bicolor (L.) Moench]. Breed Sci. 62:151–159.
  • Fakrudin B, Lakshmidevamma TN, Ugalat J, Gunnaiah R, Gautham Suresh SP, Apoorva KA, Doddamani M, Kadam S, Rashmi K, Mamathashree MN, et al. 2021. Genomic designing for biotic stress resistance in sorghum. In: C Kole, editor. Genomic designing for biotic stress resistant cereal crops. Cham: Springer; p. 213–255.
  • Felderhoff TJ, Murray SC, Klein PE, Sharma A, Hamblin MT, Kresovich S, Vermerris W, Rooney WL. 2012. QTLs for energy-related traits in a sweet × grain sorghum [Sorghum bicolor (L.) Moench] mapping population. Crop Sci. 52:2040–2049.
  • Guan YA, Wang HL, Qin L, Zhang HW, Yang YB, Gao FJ, Li RY, Wang HG. 2011. QTL mapping of bio-energy related traits in sorghum. Euphytica. 182:431–440.
  • Guo JF, Qi JF, He KL, Wu JQ, Bai SX, Zhang TT, Zhao JR, Wang ZY. 2019. The Asian corn borer Ostrinia furnacalis feeding increases the direct and indirect defence of mid-whorl stage commercial maize in the field. Plant Biotechnol J. 17:88–102.
  • Han X, Chen RZ, Li LB, Wei X, Qu MB, Klein MG, Wang KQ. 2020. Phylogenetic relationships and biological features reveal that Male Ostrinia furnacalis (Lepidoptera: Crambidae) in Northeast China can be categorized into postmedial line-based clades. Zootaxa. 4786:53–68.
  • He KL, Wang ZY, Zhou DR, Wen LP, Song YY, Yao ZY (2003) Evaluation of transgenic Bt corn for resistance to the Asian corn borer (Lepidoptera: Pyralidae). J Econ Entomol 96: 935-940
  • Hilley J, Truong S, Olson S, Morishige D, Mullet J. 2016. Identification of Dw1, a regulator of sorghum stem internode length. PLoS One. 11:e0151271.
  • Hosseini SZ, Babaeian-Jelodar N, Bagheri N. 2010. Evaluation of resistance to striped stem borer in rice. Biharean Biologist. 4:67–71.
  • Howe GA, Jander G. 2008. Plant immunity to insect herbivores. Annu Rev Plant Biol. 59:41–66.
  • Jadhao KR, Bansal A, Rout GR. 2020. Silicon amendment induces synergistic plant defense mechanism against pink stem borer (Sesamia inferens Walker.) in finger millet (Eleusine coracana Gaertn.). Sci Rep. 10:4229.
  • Jing ZH, Wacera WF, Takami T, Takanashi H, Fukada F, Kawano Y, Kajiya-Kanegae H, Iwata H, Tsutsumi N, Sakamoto W. 2021. NB-LRR-encoding genes conferring susceptibility to organophosphate pesticides in sorghum. Sci Rep. 11:19828.
  • Joo Y, Kim H, Kang M, Lee G, Choung S, Kaur H, Oh S, Choi JW, Ralph J, Baldwin IT, Kim SG. 2021. Pith-specific lignification in Nicotiana attenuata as a defense against a stem-boring herbivore. New Phytol. 232:332–344.
  • Kajiya-Kanegae H, Takanashi H, Fujimoto M, Ishimori M, Ohnishi N, Wacera WF, Omollo EA, Kobayashi M, Yano K, Nakano M, et al. 2020. RAD-seq-based high-density linkage map construction and QTL mapping of biomass-related traits in sorghum using the Japanese landrace Takakibi NOG. Plant Cell Physiol. 61:1262–1272.
  • Kebede H, Subudhi PK, Rosenow DT, Nguyen HT. 2001. Quantitative trait loci influencing drought tolerance in grain sorghum (Sorghum bicolor L. Moench). Theor Appl Genet. 103:266–276.
  • Kong WQ, Guo H, Goff VH, Lee TH, Kim C, Paterson AH. 2014. Genetic analysis of vegetative branching in sorghum. Theor Appl Genet. 127:2387–2403.
  • Kong WQ, Jin HZ, Franks CD, Kim C, Bandopadhyay R, Rana MK, Auckland SA, Goff VH, Rainville LK, Burow GB, et al. 2013. Genetic analysis of recombinant inbred lines for Sorghum bicolor x Sorghum propinquum. G3-Genes Genomes Genetics. 3:101–108.
  • Li GP, Feng HQ, Ji TJ, Huang JR, Tian CH. 2021. What type of Bt corn is suitable for a region with diverse lepidopteran pests: A laboratory evaluation. Gm Crops Food-Biotechnol Agri Food Chain. 12:115–124.
  • López-Malvar A, Resendiz Z, Santiago R, Jimenez-Galindo JC, Malvar RA. 2021. Relationships between stalk resistance and corn borers, agronomic traits, and cell wall hydroxycinnamates in a set of recombinant inbred lines from a maize MAGIC population. Agronomy. 11:1132.
  • Mace ES, Tai SS, Gilding EK, Li YH, Prentis PJ, Bian LL, Campbell BC, Hu WS, Innes DJ, Han XL, et al. 2013. Whole-genome sequencing reveals untapped genetic potential in Africa’s indigenous cereal crop sorghum. Nat Commun. 4:2320.
  • Mohammed R, Are AK, Munghate RS, Bhavanasi R, Polavarapu KKB, Sharma HC. 2016. Inheritance of resistance to sorghum shoot fly, Atherigona soccata in sorghum, Sorghum bicolor (L.) Moench. Front Plant Sci. 7:543.
  • Mulaa MM, Bergvinson DJ, Mugo SN, Wanyama JM, Tende RM, De Groote H, Tefera TM. 2011. Evaluation of stem borer resistance management strategies for Bt maize in Kenya based on alternative host refugia. Afr J Biotechnol. 10:4732–4740.
  • Multani DS, Briggs SP, Chamberlin MA, Blakeslee JJ, Murphy AS, Johal GS. 2003. Loss of an MDR transporter in compact stalks of maize br2 and sorghum dw3 mutants. Science. 302:81–84.
  • Murray SC, Sharma A, Rooney WL, Klein PE, Mullet JE, Mitchell SE, Kresovich S. 2008. Genetic improvement of sorghum as a biofuel feedstock: I. QTL for stem sugar and grain nonstructural carbohydrates. Crop Sci. 48:2165–2179.
  • Muturi PW, Mgonja M, Rubaihayo P, Mwololo JK. 2021. QTL mapping of traits associated with dual resistance to the African stem borer (Busseola fusca) and spotted stem borer (Chilo partellus) in sorghum (Sorghum bicolor). Int J Genomics. 2021:1.
  • Muturi PW, Rubaihayo P, Mgonja M, Kyamanywa S, Sharma HC, Hash CT. 2012. Novel source of sorghum tolerance to the African stem borer, Busseola fusca. Afr J Plant Sci. 6:295–302.
  • Ogbaga CC, Stepien P, Johnson GN. 2014. Sorghum (Sorghum bicolor) varieties adopt strongly contrasting strategies in response to drought. Physiol Plant. 152:389–401.
  • Ohnishi N, Wacera WF, Sakamoto W. 2019. Photosynthetic responses to high temperature and strong light suggest potential post-flowering drought tolerance of sorghum Japanese landrace Takakibi. Plant Cell Physiol. 60:2086–2099.
  • Ordas B, Malvar RA, Santiago R, Butron A. 2010. QTL mapping for Mediterranean corn borer resistance in European flint germplasm using recombinant inbred lines. BMC Genomics. 11:174.
  • Paterson AH, Bowers JE, Bruggmann R, Dubchak I, Grimwood J, Gundlach H, Haberer G, Hellsten U, Mitros T, Poliakov A, et al. 2009. The Sorghum bicolor genome and the diversification of grasses. Nature. 457:551–556.
  • Perumal R, Magill CW, Peterson GC, Prom LK, Bashir EM, Tesso T. 2018. Sorghum breeding for biotic stress tolerance. In: B Roney, editor. Achieving sustainable cultivation of sorghum, Volume 1: genetics, breeding and production techniques. Sawston: Burleigh Dodds Science Publishing; p. 189–226.
  • R Core Team. 2022. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/.
  • Sabadin PK, Malosetti M, Boer MP, Tardin FD, Santos FG, Guimaraes CT, Gomide RL, Andrade CLT, Albuquerque PEP, Caniato FF, et al. 2012. Studying the genetic basis of drought tolerance in sorghum by managed stress trials and adjustments for phenological and plant height differences. Theor Appl Genet. 124:1389–1402.
  • Samayoa LF, Butron A, Malvar RA. 2014. QTL mapping for maize resistance and yield under infestation with Sesamia nonagrioides. Mol Breed. 34:1331–1344.
  • Sanchez AC, Subudhi PK, Rosenow DT, Nguyen HT. 2002. Mapping QTLs associated with drought resistance in sorghum (Sorghum bicolor L). Plant Mol Biol. 48:713–726.
  • Satish K, Srinivas G, Madhusudhana R, Padmaja PG, Reddy RN, Mohan SM, Seetharama N. 2009. Identification of quantitative trait loci for resistance to shoot fly in sorghum [Sorghum bicolor (L.) Moench]. Theor Appl Genet. 119:1425–1439.
  • Shehzad T, Okuno K. 2015. QTL mapping for yield and yield-contributing traits in sorghum (Sorghum bicolor (L.) Moench) with genome-based SSR markers. Euphytica. 203:17–31.
  • Shiferaw T, Dargo F. 2019. Evaluating sorghum stem borer Chilo partellus (Swinhoe) (Lepidoptera: Crambidae) management alternatives in eastern Ethiopia. Agri Res Technol. 20:556134.
  • Shinya T, Hojo Y, Desaki Y, Christeller JT, Okada K, Shibuya N, Galis I. 2016. Modulation of plant defense responses to herbivores by simultaneous recognition of different herbivore-associated elicitors in rice. Sci Rep. 6:32537.
  • Shiringani AL, Frisch M, Friedt W. 2010. Genetic mapping of QTLs for sugar-related traits in a RIL population of Sorghum bicolor L. Moench. Theor Appl Genet. 121:323–336.
  • Shukla S, Felderhoff TJ, Saballos A, Vermerris W. 2017. The relationship between plant height and sugar accumulation in the stems of sweet sorghum (Sorghum bicolor (L.) Moench). Field Crops Res. 203:181–191.
  • Stamenkovic OS, Siliveru K, Veljkovic VB, Bankovic-Ilic IB, Tasic MB, Ciampitti IA, Dalovic IG, Mitrovic PM, Sikora VS, Prasad PVV. 2020. Production of biofuels from sorghum. Renewable Sustainable Energy Rev. 124:109769.
  • Takanashi H, Kajiya-Kanegae H, Nishimura A, Yamada J, Ishimori M, Kobayashi M, Yano K, Iwata H, Tsutsumi N, Sakamoto W. 2022. DOMINANT AWN INHIBITOR encodes the ALOG protein originating from gene duplication and inhibits AWN elongation by suppressing cell proliferation and elongation in sorghum. Plant Cell Physiol. 63:901–918.
  • Takanashi H, Shichijo M, Sakamoto L, Kajiya-Kanegae H, Iwata H, Sakamoto W, Tsutsumi N. 2021. Genetic dissection of QTLs associated with spikelet-related traits and grain size in sorghum. Sci Rep. 11:9398.
  • Tetreault HM, Grover S, Scully ED, Gries T, Palmer NA, Sarath G, Louis J, Sattler SE. 2019. Global responses of resistant and susceptible sorghum (Sorghum bicolor) to sugarcane aphid (Melanaphis sacchari). Front Plant Sci. 10:145.
  • Tripathy S, Rath LK. 2017. Silicon induced resistance expression in rice to yellow stem borer. J Entomol Zool Stud. 5:12–15.
  • van Rensburg JBJ, Flett BC. 2010. A review of research achievements on maize stem borer, Busseola fusca (Fuller) and Diplodia ear rot caused by Stenocarpella maydis (Berk. Sutton). S Afr J Plant Soil. 27:74–80.
  • Visarada K, Prasad GS, Royer M. 2016. Genetic transformation and evaluation of two sweet sorghum genotypes for resistance to spotted stemborer, Chilo partellus (Swinhoe). Plant Biotechnol Rep. 10:277–289.
  • Wahinya FW, Yamazaki K, Jing ZH, Takami T, Kamiya T, Kajiya-Kanegae H, Takanashi H, Iwata H, Tsutsumi N, Fujiwara T, Sakamoto W. 2022. Sorghum ionomics reveals the functional SbHMA3a allele that limits excess cadmium accumulation in grains. Plant Cell Physiol. 63:713–728.
  • Wang FM, Zhao SM, Han YH, Shao YT, Dong ZY, Gao Y, Zhang KP, Liu X, Li DW, Chang JH, Wang DW. 2013. Efficient and fine mapping of RMES1 conferring resistance to sorghum aphid Melanaphis sacchari. Mol Breed. 31:777–784.
  • Wari D, Aboshi T, Shinya T, Galis I. 2022. Integrated view of plant metabolic defense with particular focus on chewing herbivores. J Integr Plant Biol. 64:449–475.
  • Wortmann CS, Mamo M, Mburu C, Letayo E, Abebe G, Kayuki KC, Chisi M, Mativavarira M, Xerinda S, Ndacyayisenga T. 2009. Atlas of Sorghum (Sorghum bicolor (L.) Moench): production in eastern and Southern Africa. In: The board of regents of the University of Nebraska-Lincoln. INTSORMIL Scientific Publications. 2.
  • Wu JQ, Baldwin IT. 2010. New insights into plant responses to the attack from insect herbivores. Annu Rev Genet. 44:1–24.
  • Wu LH, Hill MP, Thomson LJ, Hoffmann AA. 2018. Assessing the current and future biological control potential of Trichogramma ostriniae on its hosts Ostrinia furnacalis and Ostrinia nubilalis. Pest Manage Sci. 74:1513–1523.
  • Xin ZG, Wang ML, Cuevas HE, Chen JP, Harrison M, Pugh NA, Morris G. 2021. Sorghum genetic, genomic, and breeding resources. Planta. 254:114.
  • Yamaguchi M, Fujimoto H, Hirano K, Araki-Nakamura S, Ohmae-Shinohara K, Fujii A, Tsunashima M, Song XJ, Ito Y, Nagae R, et al. 2016. Sorghum Dw1, an agronomically important gene for lodging resistance, encodes a novel protein involved in cell proliferation. Sci Rep. 6:28366.
  • Zheng LY, Guo XS, He B, Sun LJ, Peng Y, Dong SS, Liu TF, Jiang SY, Ramachandran S, Liu CM, Jing HC. 2011. Genome-wide patterns of genetic variation in sweet and grain sorghum (Sorghum bicolor). Genome Biol. 12:R114.
  • Zheng YQ, Zhang XY, Liu X, Qin NN, Xu KF, Zeng RS, Liu J, Song YY. 2021. Nitrogen supply alters rice defense against the striped stem borer Chilo suppressalis. Front Plant Sci. 12:691292.
  • Zhu-Salzman K, Salzman RA, Ahn JE, Koiwa H. 2004. Transcriptional regulation of sorghum defense determinants against a phloem-feeding aphid. Plant Physiol. 134:420–431.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.