Développement des cultures et des ressources aquatiques : Recherche stratégique en génomique agroalimentaire

Période de financement : 2021-2025

Responsable : Paul Wiebe

Financement total de l'IRDG : 14 208 000 $

L'IRDG soutient la recherche multiomique au Centre de recherche en développement des cultures et des ressources aquatiques (centre DCRA) qui vise à modéliser des environnements simulés et des conceptions de plantes afin d'adapter les cultures essentielles pour le Canada aux environnements climatiques futurs. Cela comprend la recherche « omique » menée dans le cadre du programme Production durable de protéines (PDP) qui soutient les activités de la grappe d'innovation mondiale de Protein Industries Canada (PIC) et respecte l'engagement du CNRC à l'égard du succès des grappes d'innovation mondiales du Canada, des priorités du gouvernement fédéral et des partenariats avec l'industrie et d'autres intervenants. L'IRDG soutient également 2 piliers stratégiques du centre DCRA : l'Initiative en génomique et cultures résilientes au climat (CRC), qui se concentre sur l'amélioration de la résistance au climat des cultures canadiennes essentielles; et Systèmes agricoles en environnement contrôlé, qui englobe la technologie et l'infrastructure pour évaluer de nouvelles plantes dans des conditions contrôlées simulant les conditions environnementales associées au changement climatique.

Publications

  • Ashe P, Tu K, Stobbs JA, Dynes JJ, Vu M, Shaterian H, Kagale S, Tanino KK, Wanasundara JPD, Vail S, Karunakaran C, Quilichini TD. 2025. Applications of synchrotron light in seed research: an array of x-ray and infrared imaging methodologies. Front Plant Sci 15:1395952. https://doi.org/10.3389/fpls.2024.1395952 (en anglais seulement)
  • Berraies S, Ruan Y, Knox R, DePauw R, Bokore F, Cuthbert R, Blackwell B, Henriquez MA, Konkin D, Yu B, Pozniak C, Meyer B. 2024. Genetic mapping of deoxynivalenol and fusarium damaged kernel resistance in an adapted durum wheat population. BMC Plant Biol 24(1):183. https://doi.org/10.1186/s12870-023-04708-8
  • Bhowmik P, Yan W, Hodgins C, Polley B, Warkentin T, Nickerson M, Ro D-K, Marsolais F, Domoney C, Shariati-Ievari S, Aliani M. 2023. CRISPR/Cas9-mediated lipoxygenase gene-editing in yellow pea leads to major changes in fatty acid and flavor profiles. Front Plant Sci 14:1246905. https://doi.org/10.3389/fpls.2023.1246905
  • Bhuiyan MHR, Liu L, Samaranayaka A, Ngadi M. 2024. Prediction of pea composites physicochemical traits and techno-functionalities using FTIR spectroscopy. LWT 208:116667. https://doi.org/10.1016/j.lwt.2024.116667 (en anglais seulement)
  • Bokore FE, Boyle K, Ruan Y, McCartney CA, Hiebert CW, Knox RE, Pei X, Reimer E, Ammar K, Zhang W, Fobert P, Cuthbert RD, Berraies S, McCallum BD. 2024. Mapping seedling and adult plant leaf rust resistance genes in the durum wheat cultivar Strongfield and other Triticum turgidum (L.) lines. Phytopathology 114(11):2401–2411. https://doi.org/10.1094/phyto-09-23-0348-r (en anglais seulement)
  • Bokore FE, Ruan Y, Mccartney C, Knox RE, Pei X, Aboukhaddour R, Randhawa H, Ammar K, Meyer B, Cuthbert RD, Berraies S, Depauw R, Fobert P. 2021. High density genetic mapping of stripe rust resistance in a 'Strongfield' / 'Blackbird' durum wheat population. Can J Plant Pathol 43(sup2):S242. https://doi.org/10.1080/07060661.2021.1968036
  • Buhrow LM, Liu Z, Cram D, Sharma T, Foroud NA, Pan Y, Loewen MC. 2021. Wheat transcriptome profiling reveals abscisic and gibberellic acid treatments regulate early-stage phytohormone defense signaling, cell wall fortification, and metabolic switches following Fusarium graminearum-challenge. BMC Genomics 22(1):798. https://doi.org/10.1186/s12864-021-08069-0
  • Cabral AL, Ruan Y, Cuthbert RD, Li L, Zhang W, Boyle K, Berraies S, Henriquez MA, Burt A, Kumar S, Fobert P, Piche I, Bokore FE, Meyer B, Sangha J, Knox RE. 2023. Multi-locus genome-wide association study of fusarium head blight in relation to days to anthesis and plant height in a spring wheat association panel. Front Plant Sci 14:1166282. https://doi.org/10.3389/fpls.2023.1166282
  • Da Ros L, Bollina V, Soolanayakanahally R, Pahari S, Elferjani R, Kulkarni M, Vaid N, Risseuw E, Cram D, Pasha A, Esteban E, Konkin D, Provart N, Nambara E, Kagale S. 2023. Multi-omics atlas of combinatorial abiotic stress responses in wheat. Plant J 116(4):1118. https://doi.org/10.1111/tpj.16332
  • Das PC, Baik O, Tabil LG, Rajagopalan N. 2025a. Impact of radiofrequency and microwave heating on the nutritional and antinutritional properties of pulses: a review. Legum Sci 7(1):e70025. https://doi.org/10.1002/leg3.70025 (en anglais seulement)
  • Das PP, Xu C, Lu Y, Khorsandi A, Tanaka T, Korber D, Nickerson M, Rajagopalan N. 2023. Snapshot of proteomic changes in Aspergillus oryzae during various stages of fermentative processing of pea protein isolate. Food Chem Mol Sci 6:100169. https://doi.org/10.1016/j.fochms.2023.100169
  • Das PP, Xu C, Lu Y, Liu E, Jafarian Z, Tanaka T, Korber D, Nickerson M, Rajagopalan N. 2025b. Identifying microbial proteins and changes in proteome in spontaneously fermented pulse protein isolates. Food Chem Mol Sci 10:100254. https://doi.org/10.1016/j.fochms.2025.100254 (en anglais seulement)
  • Dhillon LK, Chandnani R, Nakhforoosh A, Qin T, Panjvani K, Feurtado JA, Kochian L, Warkentin TD. 2024. Evaluation of variation in seedling root architectural traits and their potential association with nitrogen fixation and agronomic traits in field pea accessions. Crop Sci 64(3):1619–1638. https://doi.org/10.1002/csc2.21234 (en anglais seulement)
  • Ferrie AMR. 2024. Haploid plant production and its applications for medicinal plants. Tissue Culture Techniques and Medicinal Plants: Enhancing propag and Production 203–217. https://doi.org/10.1201/b23374-10 (en anglais seulement)
  • Ferrie AMR, Brost JM. 2024. Enhancing microspore embryogenesis in diploid potato (Solanum tuberosum L. ssp. tuberosum) germplasm. Plant Cell Tissue Organ Cult 157(2):40. https://doi.org/10.1007/s11240-024-02768-8 (en anglais seulement)
  • Ficht A, Konkin DJ, Cram D, Sidebottom C, Tan Y, Pozniak C, Rajcan I. 2023. Genomic selection for agronomic traits in a winter wheat breeding program. Theor Appl Genet 136(3):38. https://doi.org/10.1007/s00122-023-04294-1
  • Fortier CE, Musso AE, Evenden ML, Zaharia LI, Cooke JEK. 2024. Evidence that Ophiostomatoid Fungal Symbionts of Mountain Pine Beetle Do Not Play a Role in Overcoming Lodgepole Pine Defenses During Mass Attack. Mol Plant-Microbe Interact 37(5):445–458. https://doi.org/10.1094/mpmi-06-23-0077-r (en anglais seulement)
  • Gao P, Quilichini TD, Yang H, Li Q, Nilsen KT, Qin L, Babic V, Liu L, Cram D, Pasha A, Esteban E, Condie J, Sidebottom C, Zhang Y, Huang Y, Zhang W, Bhowmik P, Kochian LV, Konkin D, Wei Y, Provart NJ, Kagale S, Smith M, Patterson N, Gillmor CS, Datla R, Xiang D. 2022. Evolutionary divergence in embryo and seed coat development of U's Triangle Brassica species illustrated by a spatiotemporal transcriptome atlas. New Phytol 233(1):30. https://doi.org/10.1111/nph.17759
  • Goyal RK, Hui JPM, Ranches J, Stefanova R, Jones A, Banskota AH, Burton I, Yu B, Berrue F, Hannig A, Clark S, Chatterton S, Dhaubhadel S, Zhang J. 2024. Untargeted metabolomic analysis reveals a potential role of saponins in the partial resistance of pea (Pisum sativum) against a root rot pathogen, Aphanomyces euteiches. Phytopathology 114(12):2502–2514. https://doi.org/10.1094/phyto-04-24-0151-r (en anglais seulement)
  • Li Q, Sharpe AG, Kochian LV, Zou J, Reddy ASN, Wei Y, Pozniak C, Patterson N, Gillmor CS, Datla R, Xiang D. 2021. Alternative splicing dynamics and evolutionary divergence during embryogenesis in wheat species. Plant Biotechnol J 19(8):1624. https://doi.org/10.1111/pbi.13579
  • Haile JK, Sertse D, N'Diaye A, Klymiuk V, Wiebe K, Ruan Y, Chawla HS, Henriquez M-A, Wang L, Kutcher HR, Steiner B, Buerstmayr H, Pozniak CJ. 2023. Multi-locus genome-wide association studies reveal the genetic architecture of Fusarium head blight resistance in durum wheat. Front Plant Sci 14:1182548. https://doi.org/10.3389/fpls.2023.1182548
  • Haldar A, Tekieh F, Balcerzak M, Wolfe D, Lim D, Joustra K, Konkin D, Han F, Fedak G, Ouellet T. 2021. Introgression of thinopyrum elongatum dna fragments carrying resistance to fusarium head blight into triticum aestivum cultivar chinese spring is associated with alteration of gene expression. Genome 64(11):1009. https://doi.org/10.1139/gen-2020-0152
  • Han X, Akhov L, Ashe P, Lewis C, Deibert L, Irina Zaharia L, Forseille L, Xiang D, Datla R, Nosworthy M, Henry C, Zou J, Yu B, Patterson N. 2023. Comprehensive compositional assessment of bioactive compounds in diverse pea accessions. Food Res Int 165:112455. https://doi.org/10.1016/j.foodres.2022.112455
  • He Y, Xiong W, Hu P, Huang D, Feurtado JA, Zhang T, Hao C, DePauw R, Zheng B, Hoogenboom G, Dixon LE, Wang H, Challinor AJ. 2024. Climate change enhances stability of wheat-flowering-date. Sci Total Environ 917:170305. https://doi.org/10.1016/j.scitotenv.2024.170305 (en anglais seulement)
  • Hodgins CL, Salama EM, Kumar R, Zhao Y, Roth SA, Cheung IZ, Chen J, Arganosa GC, Warkentin TD, Bhowmik P, Ham B-K, Ro D-K. 2024. Creating saponin-free yellow pea seeds by CRISPR/Cas9-enabled mutagenesis on β-amyrin synthase. Plant Direct 8(1):e563. https://doi.org/10.1002/pld3.563
  • Huang B, Huang D, Zhang J, Xiong J, Wu S, Zheng X, Huang L, Lin J, Li Y, Hong Z, Feurtado JA, Wu W. 2025. Barley young leaf chlorina, a putative pentatricopeptide repeat gene, is essential for chloroplast development in young leaves. Plant Mol Biol 115(2):36. https://doi.org/10.1007/s11103-025-01561-1 (en anglais seulement)
  • Jiang Y, N'Diaye A, Koh CS, Quilichini TD, Shunmugam ASK, Kirzinger MW, Konkin D, Bekkaoui Y, Sari E, Pasha A, Esteban E, Provart NJ, Higgins JD, Rozwadowski K, Sharpe AG, Pozniak CJ, Kagale S. 2023. The coordinated regulation of early meiotic stages is dominated by non-coding RNAs and stage-specific transcription in wheat. Plant J 114(1):209. https://doi.org/10.1111/tpj.16125
  • Khorsandi A, Shi D, Stone AK, Bhagwat A, Lu Y, Xu C, Das PP, Polley B, Akhov L, Gerein J, Han X, Bhowmik P, Zaharia LI, House JD, Rajagopalan N, Tanaka T, Korber DR, Nickerson MT. 2023a. Effect of solid‐state fermentation on the protein quality and volatile profile of pea and navy bean protein isolates. Cereal Chem 101(1):131–143. https://doi.org/10.1002/cche.10729 (en anglais seulement)
  • Khorsandi A, Stone AK, Shi D, Xu C, Das PP, Lu Y, Rajagopalan N, Tanaka T, Korber DR, Nickerson MT. 2023b. Physicochemical and functional properties of fermented pea and navy bean protein isolates. Cereal Chem 101(1):231–247. https://doi.org/10.1002/cche.10740 (en anglais seulement)
  • Konkin D, Hsueh Y-C, Kirzinger M, Kubaláková M, Haldar A, Balcerzak M, Han F, Fedak G, Doležel J, Sharpe A, Ouellet T. 2022. Genomic sequencing of Thinopyrum elongatum chromosome arm 7EL, carrying fusarium head blight resistance, and characterization of its impact on the transcriptome of the introgressed line CS-7EL. BMC Genomics 23(1):228. https://doi.org/10.1186/s12864-022-08433-8
  • Kucha C, Samaranayaka A, Asavajaru P, Ngadi M. 2025. High-throughput precision assessment of pea-derived protein products using near infrared hyperspectral imaging. Spectrochim Acta Part A Mol Biomol Spectrosc 331:125770. https://doi.org/10.1016/j.saa.2025.125770 (en anglais seulement)
  • Links MG, Dumonceaux TJ, Luke Mccarthy E, Hemmingsen SM, Topp E, Town JR. 2021. Captureseq: Hybridization-based enrichment of cpn60 gene fragments reveals the community structures of synthetic and natural microbial ecosystems. Microorg 9(4):816. https://doi.org/10.3390/microorganisms9040816
  • Lister JGR, Loewen ME, Loewen MC, St‐Jacques AD. 2024. Rational design of disulfide bonds to increase thermostability of Rhodococcus opacus catechol 1,2 dioxygenase. Biotechnol Bioeng 121(11):3389–3401. https://doi.org/10.1002/bit.28808 (en anglais seulement)
  • Lu Y, Burton IW, Ashe P, St-Jacques AD, Rajagopalan N, Monteil-Rivera F, Loewen MC. 2023. Characterization of a partially saturated and glycosylated apocarotenoid from wheat that is depleted upon leaf rust infection. Gene 893:147927. https://doi.org/10.1016/j.gene.2023.147927 (en anglais seulement)
  • Mahesh HB, Prasannakumar MK, Manasa KG, Perumal S, Khedikar Y, Kagale S, Soolanayakanahally RY, Lohithaswa HC, Rao AM, Hittalmani S. 2021. Genome, Transcriptome, and Germplasm Sequencing Uncovers Functional Variation in the Warm-Season Grain Legume Horsegram Macrotyloma uniflorum (Lam.) Verdc. Front Plant Sci 12:758119. https://doi.org/10.3389/fpls.2021.758119
  • Meesapyodsuk D, Sun K, Qiu X. 2024. Structural and functional analysis of plant ELO-like elongase for fatty acid elongation. Plant Mol Biol 114(5):90. https://doi.org/10.1007/s11103-024-01490-5 (en anglais seulement)
  • Moghaddam SM, Oladzad A, Koh C, Ramsay L, Hart JP, Mamidi S, Hoopes G, Sreedasyam A, Wiersma A, Zhao D, Grimwood J, Hamilton JP, Jenkins J, Vaillancourt B, Wood JC, Schmutz J, Kagale S, Porch T, Bett KE, Buell CR, McClean PE. 2021. The tepary bean genome provides insight into evolution and domestication under heat stress. Nat Commun 12(1):2638. https://doi.org/10.1038/s41467-021-22858-x
  • Nosworthy MG, Yu B, Zaharia LI, Medina G, Patterson N. 2025. Pulse protein quality and derived bioactive peptides. Front Plant Sci 16:1429225. https://doi.org/10.3389/fpls.2025.1429225 (en anglais seulement)
  • Pahari S, Vaid N, Soolanayakanahally R, Kagale S, Pasha A, Esteban E, Provart N, Stobbs JA, Vu M, Meira D, Karunakaran C, Boda P, Prasannakumar MK, Nagaraja A, Jain AK. 2024. Nutri‐cereal tissue‐specific transcriptome atlas during development: Functional integration of gene expression to identify mineral uptake pathways in little millet (Panicum sumatrense). Plant J 119(1):577–594. https://doi.org/10.1111/tpj.16749 (en anglais seulement)
  • Pan Y, Li Y, Liu Z, Zou J, Li Q. 2022. Computational genomics insights into cold acclimation in wheat. Front Genet 13:1015673. https://doi.org/10.3389/fgene.2022.1015673
  • Pandey PK, Bhowmik P, Kagale S. 2022. Optimized methods for random and targeted mutagenesis in field pea (Pisum sativum L.). Front Plant Sci 13:995542. https://doi.org/10.3389/fpls.2022.995542
  • Quiza L, Tremblay J, Greer CW, Hemmingsen SM, St-Arnaud M, Pozniak CJ, Yergeau E. 2021. Rhizosphere shotgun metagenomic analyses fail to show differences between ancestral and modern wheat genotypes grown under low fertilizer inputs. FEMS Microbiol Ecol 97(6):fiab071. https://doi.org/10.1093/femsec/fiab071
  • Rabanus-Wallace MT, Hackauf B, Mascher M, Lux T, Wicker T, Gundlach H, Baez M, Houben A, Mayer KFX, Guo L, Poland J, Pozniak CJ, Walkowiak S, Melonek J, Praz CR, Schreiber M, Budak H, Heuberger M, Steuernagel B, Wulff B, Börner A, Byrns B, Čížková J, Fowler DB, Fritz A, Himmelbach A, Kaithakottil G, Keilwagen J, Keller B, Konkin D, Larsen J, Li Q, Myśków B, Padmarasu S, Rawat N, Sesiz U, Biyiklioglu-Kaya S, Sharpe A, Šimková H, Small I, Swarbreck D, Toegelová H, Tsvetkova N, Voylokov AV, Vrána J, Bauer E, Bolibok-Bragoszewska H, Doležel J, Hall A, Jia J, Korzun V, Laroche A, Ma X-F, Ordon F, Özkan H, Rakoczy-Trojanowska M, Scholz U, Schulman AH, Siekmann D, Stojałowski S, Tiwari VK, Spannagl M, Stein N. 2021. Chromosome-scale genome assembly provides insights into rye biology, evolution and agronomic potential. Nat Genet 53(4):564. https://doi.org/10.1038/s41588-021-00807-0
  • Rossato M, Marcolungo L, De Antoni L, Lopatriello G, Bellucci E, Cortinovis G, Frascarelli G, Nanni L, Bitocchi E, Di Vittori V, Vincenzi L, Lucchini F, Bett KE, Ramsay L, Konkin DJ, Delledonne M, Papa R. 2023. CRISPR-Cas9-based repeat depletion for highthroughput genotyping of complex plant genomes. Genome Res 33(5):787. https://doi.org/10.1101/gr.277628.122
  • Sangha JS, Wang W, Knox R, Ruan Y, Cuthbert RD, Isidro-Sánchez J, Li L, He Y, DePauw R, Singh A, Cutler A, Wang H, Selvaraj G. 2025. Phenotypic plasticity of bread wheat contributes to yield reliability under heat and drought stress. PLoS ONE 20(3):e0312122. https://doi.org/10.1371/journal.pone.0312122 (en anglais seulement)
  • Sertse D, Haile JK, Sari E, Klymiuk V, N’Diaye A, Pozniak CJ, Cloutier S, Kagale S. 2023. Genome scans capture key adaptation and historical hybridization signatures in tetraploid wheat. Plant Genome 18(1):e20410. https://doi.org/10.1002/tpg2.20410 (en anglais seulement)
  • Sharma T, Jomphe RY, Zhang D, Magalhaes AC, Loewen MC. 2024. Fusarium graminearum Ste2 and Ste3 Receptors Undergo Peroxidase-Induced Heterodimerization when Expressed Heterologously in Saccharomyces cerevisiae. Biochem Cell Biol 103. https://doi.org/10.1139/bcb-2024-0104 (en anglais seulement)
  • Shi D, Stone AK, Jafarian Z, Liu E, Xu C, Bhagwat A, Lu Y, Gao P, Polley B, Bhowmik P, Rajagopalan N, Tanaka T, Korber DR, Nickerson MT. 2024. Submerged fermentation of lentil protein isolate and its impact on protein functionality, nutrition, and volatile profiles. J Food Sci 89(6):3412–3429. https://doi.org/10.1111/1750-3841.17111 (en anglais seulement)
  • Song J, Datla R, Zou J, Xiang D. 2024a. Haploid induction: an overview of parental factor manipulation during seed formation. Front Plant Sci 15:1439350. https://doi.org/10.3389/fpls.2024.1439350 (en anglais seulement)
  • Song J, Mavraganis I, Shen W, Yang H, Cram D, Xiang D, Patterson N, Zou J. 2022. Transcriptome dissection of candidate genes associated with lentil seed quality traits. Plant Biol 24(5):815. https://doi.org/10.1111/plb.13426
  • Song J, Mavraganis I, Shen W, Yang H, Patterson N, Wang L, Xiang D, Cui Y, Zou J. 2024b. Pistil-derived lipids influence pollen tube growth and male fertility in Arabidopsis thaliana. Plant Physiol. 196(2):763–772. https://doi.org/10.1093/plphys/kiae276 (en anglais seulement)
  • Song J, Mavraganis I, Shen W, Yang H, Zou J. 2024c. Applying a non-GMO breeding approach with an identified natural variation to reduce food allergen Len c3 in Lens culinaris seeds. Front Plant Sci 15:1355902. https://doi.org/10.3389/fpls.2024.1355902 (en anglais seulement)
  • Song J, Xie X, Chen C, Shu J, Thapa RK, Nguyen V, Bian S, Kohalmi SE, Marsolais F, Zou J, Cui Y. 2021. LEAFY COTYLEDON1 expression in the endosperm enables embryo maturation in Arabidopsis. Nat Commun 12(1):3963. https://doi.org/10.1038/s41467-021-24234-1
  • Sridhar PS, Vasquez V, Monteil-Rivera F, Allingham JS, Loewen MC. 2023. A peroxidase-derived ligand that induces Fusarium graminearum Ste2 receptor-dependent chemotropism. Front Cell Infect Microbiol 13:1287418. https://doi.org/10.3389/fcimb.2023.1287418
  • Stone AK, Shi D, Liu E, Jafarian Z, Xu C, Bhagwat A, Lu Y, Akhov L, Gerein J, Han X, Zaharia LI, Rajagopalan N, Tanaka T, Korber DR, Nickerson MT. 2024. Effect of solid-state fermentation on the functionality, digestibility, and volatile profiles of pulse protein isolates. Food BioSci 61:104580. https://doi.org/10.1016/j.fbio.2024.104580 (en anglais seulement)
  • Sun G, Ni P, Lam E, Hrapovic S, Bing D, Yu B, Ai Y. 2023. Exploring the functional attributes and in vitro starch and protein digestibility of pea flours having a wide range of amylose content. Food Chem 405:134938. https://doi.org/10.1016/j.foodchem.2022.134938
  • Sun K, Meesapyodsuk D, Qiu X. 2024. Molecular cloning and functional analysis of a plastidial ω3 desaturase from Emiliania huxleyi. Front Microbiol 15:1381097. https://doi.org/10.3389/fmicb.2024.1381097 (en anglais seulement)
  • Thirulogasundar A, Shi D, Stone AK, Xu C, Bhagwat A, Lu Y, Polley B, House JD, Bhowmik P, Rajagopalan N, Tanaka T, Nickerson MT. 2024. Effect of enzyme hydrolysis on the functionality, protein quality, and flavour profile of lentil and chickpea protein isolates. J Food Meas Charact 18(2):1592–1609. https://doi.org/10.1007/s11694-023-02228-5 (en anglais seulement)
  • Wong MCH, Grant TE, Karbalaei-Heidari HR, Robotham AC, Loewen ME, St-Jacques AD, Budisa N, Loewen MC. 2024. Global incorporation of meta-fluorotyrosine or meta-fluorophenylalanine into 1,2-catechol dioxygenase modulates the binding affinities of substrates. Front Synth Biol 2:1419557. https://doi.org/10.3389/fsybi.2024.1419557 (en anglais seulement)
  • Yang C, Hu Z, Datla R, Xiang D. 2025. Editorial: Omics in seed development: challenges and opportunities for improving of seed quality and yield in model and crop plants. Front Plant Sci 16:1568039. https://doi.org/10.3389/fpls.2025.1568039 (en anglais seulement)
  • Ye S, Wang S, Chan R, Cao L, Wang H. 2023. Identification of short protein-destabilizing sequences in Arabidopsis cyclin-dependent kinase inhibitors, ICKs. J Exp Bot 75(3):772–788. https://doi.org/10.1093/jxb/erad411 (en anglais seulement)
  • Yu B, Gao P, Song J, Yang H, Qin L, Yu X, Song H, Coulson J, Bekkaoui Y, Akhov L, Han X, Cram D, Wei Y, Zaharia LI, Zou J, Konkin D, Quilichini TD, Fobert P, Patterson N, Datla R, Xiang D. 2023. Spatiotemporal transcriptomics and metabolic profiling provide insights into gene regulatory networks during lentil seed development. Plant J 115(1):253. https://doi.org/10.1111/tpj.16205
  • Yu L, Shen W, Fan J, Sah SK, Mavraganis I, Wang L, Gao P, Gao J, Zheng Q, Meesapyodsuk D, Yang H, Li Q, Zou J, Xu C. 2023. A chloroplast diacylglycerol lipase modulates glycerolipid pathway balance in Arabidopsis. Plant J 115(2):335. https://doi.org/10.1111/tpj.16228
  • Zhang W, Boyle K, Brule-Babel A, Fedak G, Gao P, Djama ZR, Polley B, Cuthbert R, Randhawa H, Graf R, Jiang F, Eudes F, Fobert PR. 2021. Evaluation of genomic prediction for fusarium head blight resistance with a multi-parental population. Biology 10(8):756. https://doi.org/10.3390/biology10080756
  • Zhang W, Boyle K, Gao P, Polley B, Brost JM, Francis T, Sidebottom C, McCallum BD, Kutcher HR, Randhawa H, Fetch TG, Ferrie AMR, Fobert PR. 2023. Systematic Characterization of Multi-Rust Resistance Genes from a 'Parula × Thatcher' Population with a High-Density Genetic Map. Phytopathology 113(5):847. https://doi.org/10.1094/PHYTO-06-22-0238-FI
  • Zhang W, Higgins EE, Robinson SJ, Clarke WE, Boyle K, Sharpe AG, Fobert PR, Parkin I a. P. 2024. A systems genomics and genetics approach to identify the genetic regulatory network for lignin content in Brassica napus seeds. Front Plant Sci 15:1393621. https://doi.org/10.3389/fpls.2024.1393621 (en anglais seulement)

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