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Chromosome-Scale, De Novo, Phased Genome Assemblies of Three Australian Limes: Citrus australasica , C. inodora , and C. glauca .

Khushwant SinghMatthew L HuffJianyang LiuJong-Won ParkTara RickmanManjunath L KeremaneRobert R KruegerMadhurababu KuntaMikeal L RooseChristopher DardickMargaret E StatonChandrika Ramadugu
Published in: Plants (Basel, Switzerland) (2024)
Huanglongbing (HLB) is a severe citrus disease worldwide. Wild Australian limes like Citrus australasica , C. inodora , and C. glauca possess beneficial HLB resistance traits. Individual trees of the three taxa were extensively used in a breeding program for over a decade to introgress resistance traits into commercial-quality citrus germplasm. We generated high-quality, phased, de novo genome assemblies of the three Australian limes using PacBio long-read sequencing. The genome assembly sizes of the primary and alternate haplotypes were determined for C. australasica (337 Mb/335 Mb), C. inodora (304 Mb/299 Mb), and C. glauca (376 Mb/379 Mb). The nine chromosome-scale scaffolds included 86-91% of the genome sequences generated. The integrity and completeness of the assembled genomes were estimated to be at 97.2-98.8%. Gene annotation studies identified 25,461 genes in C. australasica , 27,665 in C. inodora , and 30,067 in C. glauca . Genes belonging to 118 orthogroups were specific to Australian lime genomes compared to other citrus genomes analyzed. Significantly fewer canonical resistance ( R ) genes were found in C. inodora and C. glauca (319 and 449, respectively) compared to C. australasica (576), C. clementina (579), and C. sinensis (651). Similar patterns were observed for other gene families associated with potential HLB resistance, including Phloem protein 2 ( PP2 ) and Callose synthase ( CalS ) genes predicted in the Australian lime genomes. The genomic information on Australian limes developed in the present study will help understand the genetic basis of HLB resistance.
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