BOL: Related items

Gupta Lab

Sun, 15 Sep 2013 09:31:24 -0500

Gupta laboratory of Natural Information Processing at DA-IICT. Research in our lab currently focuses on two aspects of information processing viz. deciphering the information processing principles in life (systems biology) and making a computer out of bio-molecules. The key expertise of the lab is in error-correcting codes. We also work in classical and quantum information processing principles with expertise in coding theory and its wide variety of applications in Information and Communication Technology (ICT).

More @ http://www.guptalab.org/

Scientists map 17,294 proteins produced in human body

Jit — Thu, 29 May 2014 01:57:55 -0500

Indian scientists missed the genomic profiling bus, but they've more than made up for it by creating the first human proteome map which is an extension of the genomic study. Till now, here is no direct equivalent for the human proteome. But recently two groups present mass spectrometry-based analysis of human tissues, body fluids and cells mapping the large majority of the human proteome.

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

OSDDlinux : Computational resources for drug discovery

Archana Malhotra — Sun, 22 Sep 2013 13:15:58 -0500

Open Source Drug Discovery (OSDD), a mission to provide affordable drugs for poors, is in the process of creating an in silico plateform for designing, discovering and simulating drugs. OSDD have initiate number of projects to support in silico drug discovery, including OSDDlinux and computational resources for drug discovery (CRDD).

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

How to sequence the human genome - Mark J. Kiel

Fri, 30 May 2014 13:24:11 -0500

View full lesson: http://ed.ted.com/lessons/how-to-sequence-the-human-genome-mark-j-kiel Your genome, every human's genome, consists of a unique DNA sequence of A's, T's, C's and G's that tell your cells how to operate. Thanks to technological advances, scientists are now able to know the sequence of letters that makes up an individual genome relatively quickly and inexpensively. Mark J. Kiel takes an in-depth look at the science behind the sequence. Lesson by Mark J. Kiel, animation by Marc Christoforidis.

Professor / Associate Professor / Assistant Professor / Lecturer at IIIT Hyderabad

Tue, 12 Jan 2016 02:15:43 -0600

Professor / Associate Professor / Assistant Professor / Lecturer
The International Institute of Information Technology, a Deemed University (formerly Indian Institute of Information Technology, Hyderabad), is a world-class institution, where the passion for learning, teaching, research, problem-solving, and making a difference, is celebrated, invites exceptional teachers & researchers to join as Faculty.

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/

Genomics and Personalized Medicine

Sun, 01 Jun 2014 23:38:42 -0500

(October 20, 2009) Michael Snyder, Professor of Genetics and Chair of the Department of Genetics at Stanford, discusses advances in gene sequencing, the impact of genomics on medicine, the potential for personalized medicine. and efforts at Stanford to further study these issues. Stanford Mini Med School is a series arranged and directed by Stanford's School of Medicine, and presented by the Stanford Continuing Studies program. Featuring more than thirty distinguished, faculty, scientists and physicians from Stanford's medical school, the series offers students a dynamic introduction to the world of human biology, health and disease, and the groundbreaking changes taking place in medical research and health care. Stanford University http://www.stanford.edu Stanford University School of Medicine http://med.stanford.edu Stanford Continuing Studies http://continuingstudies.stanford.edu Stanford University Channel on YouTube: http://www.youtube.com/stanford

Updated ranking of institutes and countries based on developed biological databases

Rahul Nayak — Fri, 11 Jan 2019 09:35:26 -0600

Updated ranking of institutes and countries based on developed biological databases is available at https://lnkd.in/fiVAdM6 , India is maintaing 4th position and "Institute of Microbial Technology, Chandigarh" is on 3rd Position (after EBI and NCBI). This is a big achievement for any institute to reach on 3rd position in the world.

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

Search Shell Command History

Rahul Nayak — Thu, 12 Jun 2014 17:43:34 -0500

We use couple of hundreads of command in daily basis. Most of them are actually repeated several time. The question remain open how do I search old command history under bash shell and modify or reuse it?

Now a days almost all modern shell allows you to search command history if enabled by user. Use history command to display the history list with line numbers. Lines listed with with a * have been modified by user.

Shell history search command

Type history at a shell prompt:
$ history

It will display the list of all used commandline history with an serial number.

To search particular command, enter:
$ history | grep command-name
$ history | egrep -i 'scp|ssh|ftp'
Emacs Line-Edit Mode Command History Searching

To get previous command containing string, hit [CTRL]+[r] followed by search string:

(reverse-i-search):

To get previous command, hit [CTRL]+[p]. You can also use up arrow key.

CTRL-p

To get next command, hit [CTRL]+[n]. You can also use down arrow key.

CTRL-n

fc command

Apart from hostory command there are fc command to extract the command from history. The fc stands for either "find command" or "fix command.

For example list last 10 command, enter:
$ fc -l 10
To list commands 130 through 150, enter:
$ fc -l 130 150
To list all commands since the last command beginning with ssh, enter:
$ fc -l ssh
You can edit commands 1 through 5 using vi text editor, enter:
$ fc -e vi 1 5

Delete command history

The -c option causes the history list to be cleared by deleting all of the entries:
$ history -c

DNA Bending Propensity in the Presence of Base Mismatches: Implications for DNA Repair

Jitendra Narayan — Mon, 19 Aug 2013 16:01:44 -0500

Understanding how the human body recognizes damaged DNA and initiates repair fascinates Michael Feig, professor of biochemistry and molecular biology at Michigan State University. Feig studies the proteins MutS and MSH2-MSH6, which recognize defective DNA and initiate DNA repair. Natural DNA repair occurs when proteins like MutS (the primary protein responsible for recognizing a variety of DNA mismatches) scan the DNA, identify a defect, and recruit other enzymes to carry out the actual repair.

Results from computer simulations show that it is energetically less expensive to bend mismatch-containing, defective DNA (G:T, C:C, C:T, G:A, G:G, T:T, A:A, A+:C) vs. non-defective DNA (containing A:T or G:C base pairs). DNA repair mechanisms likely take advantage of this feature to detect defective DNA based on an increased bending propensity.

http://www.tacc.utexas.edu/news/feature-stories/2013/how-dna-repair-helps-prevent-cancer

http://pubs.acs.org/doi/abs/10.1021/jp403127a

Bioinformatician’s Pocket Reference !!

RAJESH DETROJA — Sun, 08 Jun 2014 09:56:58 -0500

It is amusing how brain of bioinformaticians work! Learning a new programming language for days feels so much of fun that making 5 minute discussion with neighbours (unless under special circumstances!) in our own mother-tongue. Today every bioinformatician keeps more than few languages and core IT toolkits on their plate. It has become mandatory to be able to mould different code snippets to build our own custom workflows, and thus keeping syntax at our fingertips has become essential.Although Google is best way to get syntax problem solved, it is not a bad idea to keep reference sheets is our smartphones or stick out some printed sheets on the back of your door, in the old fashion way!!

Address of the bookmark: http://infoplatter.wordpress.com/2014/04/06/bioinformaticians-pocket-reference/