Cookies on the
LGC website
We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we’ll assume that you are happy to receive all cookies on the LGC website. However, if you would like to, you can change your cookie settings at anytime.
Question markFind out more

Advance in bioenergy research: Transcriptome sequencing of biofuel-plant Jatropha curcas completed

24 Jan 2011
Tags:  Genomics

LGC Genomics sequence the transcriptome of Jatropha curcas

LGC Genomics, the genomics division of LGC, is pleased to announce that it has completed the sequencing of the whole transcriptome of the different developmental stages of Jatropha curcas seeds on behalf of the Austrian Bioplant R&D, Vienna and the PBU, Department of Biotechnology, VIBT-BOKU, Vienna.

LGC Genomics used a novel proprietary method and the cutting-edge Roche/454 Titanium sequencing technology to analyse the full-length, optimised, normalised cDNA library of Jatropha curcas. Approximately 12,000 full-length transcripts, assembled with an average 25 fold sequence coverage were obtained.

The species Jatropha of the family Euphorbiaceae has gained global attention as an alternative bioenergy plant. It grows in tropical and subtropical areas and is currently being successfully processed for the production of biodiesel. Jatropha can be planted on poor, contaminated soils which are not suitable for food production and is used in plantations of hedges and barriers to protect vulnerable areas against soil erosion. Jatropha is also used as source of fuel wood, for the production of lamp oil, soap, colours and smear oils and for some medicinal applications.

Steffen Krueger LGC Genomics’ General Manager commented: "LGC Genomics and its partners can be extremely proud of their achievement in the sequencing of this increasingly important fuel alternative. The sequencing of the Jatropha species will not only enable biofuel scientists to understand the plant’s genetic make-up, so aiding in its processing, but will help farmers increase their yields and contribute to the exploration for a genuine alternative to fossil fuels.”

Margit Laimer (PBU, BOKU) / Karin Gruber (Bioplant R & D) said: “Bioplant R & D and PBU are considering the sequencing of the transcriptome of Jatropha curcas an important milestone in our efforts to develop elite-cultivars in order to improve global access to and production of green energy”.

Bioplant`s improved plant material is expected to reach the market within the next years. The efforts for the “Production of elite plant material of Jatropha curcas“by Bioplant R&D and PBU, Vienna, are supported by the Austrian Research Promotion Agency (FFG).