Application of in-house virtual protein database performed in genomic-proteomic combined research on heavy-metal stressed onion roots
Author
Summary, in English
Objectives To establish an in-house virtual protein database that can be employed in proteomic research on non-model plants. Results A total of 87,430 unigenes were obtained through transcriptome sequencing from onion roots. Of these, 24,305 unigenes were annotated and their nucleotide sequences of coding regions were translated into amino acid sequences. The corresponding 24,305 amino acid sequences were considered as an in-house virtual protein database. Thirty-two protein spots with significant differential abundance were selected. Their MS data were submitted to a restriction enzyme map which was converted from the in-house virtual protein database. A total of 27 proteins were finally matched.
Conclusions The in-house protein database is a
feasible and innovative strategy for proteomic
research on non-model plants.
Conclusions The in-house protein database is a
feasible and innovative strategy for proteomic
research on non-model plants.
Department/s
Publishing year
2016
Language
English
Pages
1293-1300
Publication/Series
Biotechnology Letters
Volume
38
Issue
8
Document type
Journal article
Publisher
Springer
Topic
- Biochemistry and Molecular Biology
Keywords
- In-house database
- Non-model plants
- Proteomic research
- Restriction enzyme map
- Unigenes
Status
Published
ISBN/ISSN/Other
- ISSN: 1573-6776