Rubus L. subgenus Rubus Watson Genome v1.0 Assembly & Annotation

Overview
Analysis NameRubus L. subgenus Rubus Watson Genome v1.0 Assembly & Annotation
MethodNECAT (0.0.1)
SourceONT and Hi-C reads
Date performed2023-05-15

Publication:
Dev Paudel, S Brooks Parrish, Ze Peng, Saroj Parajuli, Zhanao Deng. A chromosome-scale and haplotype-resolved genome assembly of tetraploid blackberry (Rubus L. subgenus Rubus Watson), Horticulture Research, 2025;, uhaf052, https://doi.org/10.1093/hr/uhaf052

Abstract
Blackberries (Rubus spp.) are globally consumed and well known for their rich anthocyanin and antioxidant content and distinct flavors. Improving blackberries has been challenging due to genetic complexity of traits and limited genomic resources. The blackberry genome has been particularly challenging to assemble due to its polyploid nature. Here, we present the first chromosome-scale and haplotype-phased assembly for the cultivated primocane-fruiting, thornless tetraploid blackberry selection BL1 (Rubus L. subgenus Rubus Watson). The genome assembly was generated using Oxford Nanopore Technology and Hi-C scaffolding, resulting in a 919 Mb genome distributed across 27 pseudochromosomes, with an N50 of 35.73 Mb. This assembly covers >92% of the genome length and contains over 98% of complete BUSCOs. Approximately 58% of the assembly consists of repetitive sequences, with long terminal repeats being the most abundant class. A total of 87 968 protein-coding genes were predicted, of which, 82% were functionally annotated. Genome mining and RNA-Seq analyses identified possible candidate genes and transcription factors related to thornlessness and the key structural genes and transcription factors for anthocyanin biosynthesis. Activator genes including PAP1 and TTG1 and repressor genes such as ANL2 and MYBPA1 play an important role in the fine tuning of anthocyanin production during blackberry development. Resequencing of seven tetraploid blackberry cultivars/selections with different horticultural characteristics revealed candidate genes that could impact fruiting habit and disease resistance/susceptibility. This tetraploid reference genome should provide a valuable resource for accelerating genetic analysis of blackberries and facilitating the development of new improved cultivars with enhanced horticultural and nutritional traits.

Homology

Homology of the Rubus L. subgenus Rubus Watson genome v1.0 proteins was determined by pairwise sequence comparison using the blastp algorithm against various protein databases. An expectation value cutoff less than 1e-6  for the Arabidoposis proteins (Araport11, 2022-09), UniProtKB/SwissProt (Release 2023-07), and UniProtKB/TrEMBL (Release 2023-07) databases. The best hit reports are available for download in Excel format. 

Protein Homologs

Rubus Watson v1.0 proteins with arabidopsis (Araport11) homologs (EXCEL file) rubus_BL1_v1.0_vs_arabidopsis.xlsx.gz
Rubus Watson v1.0 proteins with arabidopsis (Araport11) (FASTA file) rubus_BL1_v1.0_vs_arabidopsis_hit.fasta.gz
Rubus Watson v 1.0 proteins without arabidopsis (Araport11) (FASTA file) rubus_BL1_v1.0_vs_arabidopsis_noHit.fasta.gz
Rubus Watson v1.0 proteins with SwissProt homologs (EXCEL file) rubus_BL1_v1.0_vs_swissprot.xlsx.gz
Rubus Watson v1.0 proteins with SwissProt (FASTA file) rubus_BL1_v1.0_vs_swissprot_hit.fasta.gz
Rubus Watson v1.0 proteins without SwissProt (FASTA file) rubus_BL1_v1.0_vs_swissprot_noHit.fasta.gz
Rubus Watson v1.0 proteins with TrEMBL homologs (EXCEL file) rubus_BL1_v1.0_vs_trembl.xlsx.gz
Rubus Watson v1.0 proteins with TrEMBL (FASTA file) rubus_BL1_v1.0_vs_trembl_hit.fasta.gz
Rubus Watson v1.0 proteins without TrEMBL (FASTA file) rubus_BL1_v1.0_vs_trembl_noHit.fasta.gz
Assembly

The Rubus L. subgenus Rubus Watson Genome v1.0 assembly files are available in GFF3 and FASTA format.

Downloads

Chromosomes (FASTA file) rubus_BL1_v1.0.fasta.gz
Chromosomes (Masked FASTA file) rubus_BL1_v1.0.masked.fasta.gz
Repeats (GFF3 file) rubus_BL1_v1.0.repeats.gff.gz

 

Gene Predictions

The Rubus L. subgenus Rubus Watson v1.0 genome gene prediction files are available in GFF3 and FASTA format.

Downloads

Protein sequences (FASTA file) rubus_BL1_v1.0.proteins.fasta.gz
CDS (FASTA file) rubus_BL1_v1.0.cds.fasta.gz
Genes (GFF3 file) rubus_BL1_v1.0.genes.gff3.gz

 

Functional Analysis

Functional annotation for the Rubus L. subgenus Rubus Watson Genome v1.0 are available for download below. The Rubus L. subgenus Rubus Watson Genome v1.0 proteins were analyzed using InterProScan in order to assign InterPro domains and Gene Ontology (GO) terms. Pathways analysis was performed using the KEGG Automatic Annotation Server (KAAS).

Downloads

GO assignments from InterProScan rubus_BL1_v1.0_genes2GO.xlsx.gz
IPR assignments from InterProScan rubus_BL1_v1.0_genes2IPR.xlsx.gz
Proteins mapped to KEGG Orthologs rubus_BL1_v1.0_KEGG-orthologis.xlsx.gz
Proteins mapped to KEGG Pathways rubus_BL1_v1.0_KEGG-pathways.xlsx.gz
Transcript Alignments
Transcript alignments were performed by the GDR Team of Main Bioinformatics Lab at WSU. The alignment tool 'BLAT' was used to map transcripts to the Rubus L. subgenus Rubus Watson genome assembly. Alignments with an alignment length of 97% and 97% identify were preserved. The available files are in GFF3 format.

 

Fragaria x ananassa GDR RefTrans v1 rubus_BL1_v1.0_f.x.ananassa_GDR_reftransV1
fragaria avium GDR RefTrans v1 rubus_BL1_v1.0_p.avium_GDR_reftransV1
fragaria persica GDR RefTrans v1 rubus_BL1_v1.0_p.persica_GDR_reftransV1
Rosa GDR RefTrans v1 rubus_BL1_v1.0_rosa_GDR_reftransV1
Rubus GDR RefTrans v2 rubus_BL1_v1.0_rubus_GDR_reftransV2
Malus_x_domestica GDR RefTrans v1 rubus_BL1_v1.0_m.x.domestica_GDR_reftransV1
Pyrus GDR RefTrans v1 rubus_BL1_v1.0_pyrus_GDR_reftransV1