Prunus_armeniaca_genome.fasta.gz
 Prunus_armeniaca.gff3.gz
 Prunus_armeniaca_cds.fasta.gz
 Prunus_armeniaca_pep.fasta.gz
Reference Publication(s):
Groppi A, Liu S, Cornille A, et al. Population genomics of apricots unravels domestication history and adaptive events. Nat Commun. 2021;12(1):3956. Published 2021 Jun 25. doi:10.1038/s41467-021-24283-6
Download link:
https://www.rosaceae.org/Analysis/9642068
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 Prunus_avium_genome.fasta.gz
 Prunus_avium.gff3.gz
 Prunus_avium_cds.fasta.gz
 Prunus_avium_pep.fa.gz
Reference Publication(s):
 Wang J, Liu W, Zhu D, et al.A de novo assembly of the sweet cherry (Prunus avium cv. Tieton) genome using linked-read sequencing technology. PeerJ. 2020;8:e9114. Published 2020 Jun 5.
Download link:
https://www.rosaceae.org/tools/jbrowse
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 Prunus_dulcis_genome.fasta.gz
 Prunus_dulcis.gff3.gz
 Prunus_dulcis_cds.fa.gz
 Prunus_dulcis_pep.fa.gz
Reference Publication(s):
 Alioto T, Alexiou KG, Bardil A, et al. Transposons played a major role in the diversification between the closely related almond and peach genomes: results from the almond genome sequence.  Plant J. 2020;101(2):455-472. 
Download link:
https://www.rosaceae.org/analysis/295
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 Prunus_mume_genome.fasta.gz
 Prunus_mume.gff.gz
 Prunus_mume_cds.fasta.gz
 Prunus_mume_pep.fasta.gz
Reference Publication(s):
 Zheng T, Li P, Zhuo X, et al.The chromosome-level genome provides insight into the molecular mechanism underlying the tortuous-branch phenotype of Prunus mume.New Phytol. 2022;235(1):141-156.
Download link:
https://www.rosaceae.org/Analysis/13114608
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 Prunus_persica_genome.fa.gz
 Prunus_persica.gff.gz
 Prunus_persica_cds.fasta.gz
 Prunus_persica_pep.fasta.gz
Reference Publication(s):
 Jung S, Lee T, Cheng CH, et al. 15 years of GDR: New data and functionality in the Genome Database for Rosaceae. Nucleic Acids Res. 2019;47(D1):D1137-D1145. doi:10.1093/nar/gky1000
Download link:
https://www.rosaceae.org/Analysis/13087664
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 Prunus_salicina_genome.fa.gz
 Prunus_salicina.gff3.gz
 Prunus_salicina_cds.fa.gz
 Prunus_salicina_pep.fa.gz
Reference Publication(s):
 Fang ZZ, Lin-Wang K, Dai H, et al.The genome of low-chill Chinese plum "Sanyueli" (Prunus salicina Lindl.) provides insights into the regulation of the chilling requirement of flower buds. Mol Ecol Resour. 2022;22(5):1919-1938. 
Download link:
https://www.rosaceae.org/Analysis/11745274
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 Prunus_yedoensis_genome.fa.gz
 Prunus_yedoensis.gff3.gz
 Prunus_yedoensis_cds.fa.gz
 Prunus_yedoensis_pep.fa.gz
Reference Publication(s):
 Shirasawa K, Esumi T, Hirakawa H, et al. Phased genome sequence of an interspecific hybrid flowering cherry, 'Somei-Yoshino' (Cerasus × yedoensis).  DNA Res. 2019;26(5):379-389.
Download link:
http://cbcb.cdutcm.edu.cn/TCMPG/resource/genomes/details/?id=TCMPG20141