A sweetpotato gene index established by de novo assembly of pyrosequencing and Sanger sequences and mining for gene-based microsatellite markers

Roland Schafleitner, Luz R. Tincopa, Omar Palomino, Genoveva Rossel, Ronald F. Robles, Rocio Alagon, Carlos Rivera, Cynthia Quispe, Luis Rojas, Jaime A. Pacheco, Julio Solis, Diogenes Cerna, Ji Young Kim, Jack Hou, Reinhard Simon

Research output: Contribution to journalArticlepeer-review

65 Scopus citations

Abstract

Background: Sweetpotato (Ipomoea batatas (L.) Lam.), a hexaploid outcrossing crop, is an important staple and food security crop in developing countries in Africa and Asia. The availability of genomic resources for sweetpotato is in striking contrast to its importance for human nutrition. Previously existing sequence data were restricted to around 22,000 expressed sequence tag (EST) sequences and ~ 1,500 GenBank sequences. We have used 454 pyrosequencing to augment the available gene sequence information to enhance functional genomics and marker design for this plant species.Results: Two quarter 454 pyrosequencing runs used two normalized cDNA collections from stems and leaves from drought-stressed sweetpotato clone Tanzania and yielded 524,209 reads, which were assembled together with 22,094 publically available expressed sequence tags into 31,685 sets of overlapping DNA segments and 34,733 unassembled sequences. Blastx comparisons with the UniRef100 database allowed annotation of 23,957 contigs and 15,342 singletons resulting in 24,657 putatively unique genes. Further, 27,119 sequences had no match to protein sequences of UniRef100database. On the basis of this gene index, we have identified 1,661 gene-based microsatellite sequences, of which 223 were selected for testing and 195 were successfully amplified in a test panel of 6 hexaploid (I. batatas) and 2 diploid (I. trifida) accessions.Conclusions: The sweetpotato gene index is a useful source for functionally annotated sweetpotato gene sequences that contains three times more gene sequence information for sweetpotato than previous EST assemblies. A searchable version of the gene index, including a blastn function, is available at http://www.cipotato.org/sweetpotato_gene_index.

Original languageEnglish
Article number604
JournalBMC Genomics
Volume11
Issue number1
DOIs
StatePublished - 26 Oct 2010

Bibliographical note

Funding Information:
We thank Raymundo Gutierrez for growing the experimental plants. The works were funded by the Generation Challenge Program http://www. generationcp.org/ GCP project number: G4008.09. We thank Gary Harrison for improving the manuscript.

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