The main purpose of OSDDLinux is to provide an in silico platform for computer-aided drug design. This is a collection and compilation of large number of software and web services which will be directly or indirectly useful for researches working in the field of drug design/discovery. Overall objective of OSDDlinux is to promote open source in drug discovery, crowdsourcing and network based collobrations. Following are major features of OSDDlinux ... 

Find more @ http://osddlinux.osdd.net/index.php

With emphasis on research, the institute has large research centers with over 100 PhD & 250 MS by Research students working on wide ranging topics: Computer Science, Information Security, Software engineering, AI & Robotics, VLSI and Embedded Systems, Digital Signal Processing, Computer Aided Structural Engineering (CASE), Computational Natural Sciences, Bio informatics, Computational Linguistics, IT and social development, Exact Humanities, etc., IIIT-H provides a flexible environment which active industry collaborations for conducting research.

The institute is seeking Faculty Members at all levels in the following areas:
Computational & Theoretical Chemistry/Physics/Biology(CNS)
Bioinformatics(BI)
Computational Linguistics
Mathematics & Statistics
IT for Agriculture

We also encourage applications from other areas of national importance (such as, agriculture, health, e-governance, education, policy studies, arts, etc)wherein there is a strong need to come up with IT/ECE enabled solutions.

Academic & Research Programs at the institute:
BTech, MS by Research, PostBSc Dual Degree, MTech, MPhil and PhD.

Eligibility
Candidates should normally have a PhD and an outstanding research record and commitment to teaching. The position and level offered would be based on relevant experience in research and teaching. Candidates without a PhD but demonstrated research record can also be considered in special cases. The compensation (including HRA, LTA, Medical Reimbursement, Research Allowance, etc) is designed to reward the best talent and will not be a limiting factor for the right person.

International Institute of Information Technology
Gachibowli, Hyderabad - 500 032.
Fax:+91-40-6653 1413; e-mail: facultysearch@iiit.ac.in

Lectureship Program : Outstanding candidates with B.Tech/MCA or M.Tech and desirous of joining faculty can apply for lectureship position and enroll for PhD at the same time. Applications for this program can be sent to facultysearch@iiit.ac.in .

More at http://oldwww.iiit.ac.in/content/faculty-openings/

C. Titus Brown http://video.open-bio.org/video/1/a-history-of-bioinformatics-in-the-year-2039

More at http://bigd.big.ac.cn/databasecommons/stat

The Indian scientists working in Bangalore, along with their American counterparts, have mapped more than 17,000 proteins in 30 organs of the human body. Just like the human genome was sequenced around the turn of the millennium, this is an equivalent mapping of the human proteome.

The researcher estimated there are around 20,500 proteins in the human body. These scientists have profiled around 17,294, which account for around 84% of the total proteins. Apart from this, the team also traced around 2,500 of 3,000 proteins that had been categorised as "missing proteins".

The work, done by group of Indian scientists, and Johns Hopkins University, published in the renowned journal Nature ( http://www.nature.com/nature/journal/v509/n7502/full/nature13302.html ). Of the 72 people who worked on the project, 46 are Indians.

Reference:

http://www.nature.com/nature/journal/v509/n7502/full/nature13302.html

http://www.proteinatlas.org/ -The antibody-based Human Protein Atlas programme

http://www.humanproteomemap.org/ -Proteogenomic analysis by identifying translated proteins from annotated pseudogenes, non-coding RNAs and untranslated regions.

https://www.proteomicsdb.org/ -Assembled protein evidence for 18,097 genes in ProteomicsDB

Here are the list of all the research and development funding agencies in India.

Webinar on 'An integrated RNA and DNA approach to unravel genetic regulation in cancer'

Abstract

Whole exome DNA sequencing (WES) or whole genome DNA sequencing (WGS) allows detection of mutations and polymorphisms in all exonic and genomic regions, respectively, while messenger RNA sequencing (RNA-Seq) enables quantitative analysis of gene expression. Mutations in the genome result in diverse transcriptional aberrations that can be missed in a stand-alone WES/WGS analysis. An integration of DNA variant analysis and RNA-Seq analysis enables one to investigate the consequences of genomic changes in the RNA transcripts including germline and somatic changes, imprinting, RNA editing and allele specific expression (ASE). In this webinar, we will demonstrate this integrated approach using Strand NGS to identify high confidence mutations, RNA editing events and ASE in cancer.

Webinar Details

Register here: http://www.strand-ngs.com/webinar_registration

About Speaker:

Dr. Veena Hedatale, has a PhD in Plant Genetics from The Radboud University, Netherlands focused on meiosis and recombination. Her prior academic experience at Cornell University was on genetic mapping and gene transformation in Rice. She has worked with Monsanto, and contributed to data mining, database development as well as gene/promoter/pathway discovery for traits related to yield and stress in crop species. At Strand, Veena has worked on Pharmacogenomic analysis of targets and Gene family analysis projects. Currently, she is part of the Strand NGS Application Science team and is involved in the analysis of next generation sequencing data.

Please feel free to contact us 24/5, for availing free online training or if you have any questions.