Citrus maxima
Overview
| Genus | Citrus |
| Species | maxima |
| Common Name | Buntan, pomelo, pummelo, shaddock, yu |
| Abbreviation | C. maxima |
| Ploidy | Diploid |
| Chromosome Number | 2n=2x=18 |
| Genome Size | 380 Mb |
| Genome Assemblies | 4 |
| Cross Reference | NCBI taxon: 37334 |
Organism Image
Description
The pomelo (Citrus maxima), from the family Rutaceae, is the largest citrus fruit, and the principal ancestor of the grapefruit. It is a natural, non-hybrid, citrus fruit, native to Southeast Asia. Similar in taste to a sweet grapefruit, the pomelo is commonly consumed and used for festive occasions throughout Southeast Asia and East Asia. As with the grapefruit, phytochemicals in the pomelo have the potential for drug interactions.
S genes
Citrus maxima ASM2964120v1 S genes
| Query | Chr | Size(bp) | Coordinates | BLASTn Hit | BLASTn %ID | Domain |
| SLF1 | chr1 | 36344869 | 506937-508037 | PP719840.1, S30-SLF1 | 97.729 | F-box; F_box_assoc |
| SLF2 | chr1 | 36344869 | 510020-511144 | PP719841.1, S30-SLF2 | 97.156 | F-box; F_box_assoc |
| SLF3 | chr1 | 36344869 | 516070-517188 | PP719842.1, S30-SLF3 | 94.652 | F-box; F_box_assoc |
| SLF2-2 | chr1 | 36344869 | 536174-537289 | PP719841.1, S30-SLF2 | 90.311 | F-box; F_box_assoc |
| SLF4 | chr1 | 36344869 | 568023-569129 | PP719829.1, S2-SLF4 | 91.125 | F-box; F_box_assoc |
| SLF5 | chr1 | 36344869 | 615754-616878 | PP719830.1, S2-SLF5 | 90.489 | F-box; F_box_assoc |
| SLF6 | chr1 | 36344869 | 640206-641339 | PP719845.1, S30-SLF6 | 91.404 | F-box; F_box_assoc |
| SLF7 | chr1 | 36344869 | 673683-672556 | PP719832.1, S2-SLF7 | 89.744 | F-box; F_box_assoc |
| SLF9 | chr1 | 36344869 | 682488-683630 | PP719834.1, S2-SLF9 | 90.489 | F-box; F_box_assoc |
| SLF8 | chr1 | 36344869 | 686064-687203 | PP719847.1, S30-SLF8a | 97.695 | F-box; F_box_assoc |
| SLF10 | chr1 | 36344869 | 708831-709976 | PP719835.1, S2-SLF10 | 99.389 | F-box; F_box_assoc |
| SLF11 | chr1 | 36344869 | 712959-711784 | PP719851.1, S30-SLF11 | 98.691 | F-box; F_box_assoc |
| SLF12 | chr1 | 36344869 | 717103-715982 | PP719837.1, S2-SLF12 | 99.198 | F-box; F_box_assoc |
| SLF13 | chr1 | 36344869 | 739190-740266 | PP719853.1, S30-SLF13 | 98.886 | F-box; F_box_assoc |
| SLF13-2 | chr1 | 36344869 | 2019120-2018044 | PP719853.1, S30-SLF13 | 98.886 | F-box; F_box_assoc |
| SLF12-2 | chr1 | 36344869 | 2030131-2031252 | PP719837.1, S2-SLF12 | 99.198 | F-box; F_box_assoc |
| SLF11-2 | chr1 | 36344869 | 2034277-2035452 | PP719851.1, S30-SLF11 | 98.775 | F-box; F_box_assoc |
| SLF10-2 | chr1 | 36344869 | 2037871-2036726 | PP719835.1, S2-SLF10 | 99.389 | F-box; F_box_assoc |
| SLF8-2 | chr1 | 36344869 | 2058979-2057840 | PP719847.1, S30-SLF8a | 98.589 | F-box; F_box_assoc |
| SLF9-2 | chr1 | 36344869 | 2062799-2061657 | PP719834.1, S2-SLF9 | 89.776 | F-box; F_box_assoc |
| SLF7-2 | chr1 | 36344869 | 2079800-2080930 | PP719832.1, S2-SLF7 | 91.335 | F-box; F_box_assoc |
| SLF5-2 | chr1 | 36344869 | 2093156-2094280 | PP719830.1, S2-SLF5 | 89.6 | F-box; F_box_assoc |
| SLF6-2 | chr1 | 36344869 | 2114060-2112921 | PP719845.1, S30-SLF6 | 91.125 | F-box; F_box_assoc |
| SLF4-2 | chr1 | 36344869 | 2129842-2130948 | PP719843.1, S30-SLF4 | 88.036 | F-box; F_box_assoc |
| S-RNase | chr1 | 36344869 | 2132365-2132123,2131999-2131565 | WWQ12777.1, S37-RNase | 99.1 | Ribonuclease T2-like |
| SLF3-2 | chr1 | 36344869 | 2149578-2148463 | PP719842.1, S30-SLF3 | 84.335 | F-box; F_box_assoc |
| SLF2-3 | chr1 | 36344869 | 2166482-2165370 | PP719841.1, S30-SLF2 | 95.714 | F-box; F_box_assoc |
| SLF1-2 | chr1 | 36344869 | 2171739-2170639 | PP719840.1, S30-SLF1 | 97.457 | F-box; F_box_assoc |
Downloads
The Citrus maxima S gene sequences are available in FASTA format.
| CDS and Protein (FASTA file) | S-gene_Citrus_maxima |
Publications
Wang X, Xu Y, Zhang S, Cao L, Huang Y, Cheng J, Wu G, Tian S, Chen C, Liu Y, Yu H, Yang X, Lan H, Wang N, Wang L, Xu J, Jiang X, Xie Z, Tan M, Larkin RM, Chen LL, Ma BG, Ruan Y, Deng X, Xu Q. Genomic analyses of primitive, wild and cultivated citrus provide insights into asexual reproduction. Nat Genet. 2017 May;49(5):765-772. doi: 10.1038/ng.3839.
Lu Z, Huang Y, Mao S, Wu F, Liu Y, Mao X, Adhikari PB, Xu Y, Wang L, Zuo H, Rao MJ, Xu Q. The high-quality genome of pummelo provides insights into the tissue-specific regulation of citric acid and anthocyanin during domestication. Hortic Res. 2022 Aug 4;9:uhac175. doi: 10.1093/hr/uhac175.
Xian L, Sahu SK, Huang L, Fan Y, Lin J, Su J, Bai M, Chen Y, Wang S, Ye P, Wang F, Luo Q, Bai H, Lin X, Yuan C, Geng X, Liu H, Wu H. The draft genome and multi-omics analyses reveal new insights into geo-herbalism properties of Citrus grandis 'Tomentosa'. Plant Sci. 2022 Dec;325:111489. doi: 10.1016/j.plantsci.2022.111489.
Zheng W, Zhang W, Liu D, Yin M, Wang X, Wang S, Shen S, Liu S, Huang Y, Li X, Zhao Q, Yan L, Xu Y, Yu S, Hu B, Yuan T, Mei Z, Guo L, Luo J, Deng X, Xu Q, Huang L, Ma Z. Evolution-guided multiomics provide insights into the strengthening of bioactive flavone biosynthesis in medicinal pummelo. Plant Biotechnol J. 2023 Aug;21(8):1577-1589. doi: 10.1111/pbi.14058.