Presentation is loading. Please wait.

Presentation is loading. Please wait.

From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT.

Published byRalph Edwards Modified over 8 years ago

Similar presentations

Presentation on theme: "From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT."— Presentation transcript:

1 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT

2 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Bio - Informatics Bioinformatics is a synergistic study of both biotechnology and information technology. Genetic engineering helps the scientist to incorporate a single gene into an organism, a single gene and the synthesize of the desirable product without affecting other genes and their functions. In this way the biological systems or the microbial systems are manipulated.

3 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT BIOINFORMATICS Bioinformatics deals with the creation and maintenance of databases of biological information such as the nucleic acid, gene sequences and protein sequences. It involves the data analysis or creation of electronic databases on genomes and protein molecules.

4 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Scope of Bioinformatics Bioinformatics helps to create an electronic databases on genomes and protein sequences from single celled organisms to multi-cellular organisms. It provides techniques by which three dimensional models of bio-molecules could be understood along with their structure and function. It integrates mathematical, statistical and computational methods to analyses biological, biochemical data and biophysical data.

5 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Scope of Bioinformatics Bioinformatics deals with methods for starting, retrieving and analysing biological data such as nucleic acid (DNA /RNA) and protein sequences, structure, functions pathways and genetic interactions. The computational methods in bioinformatics extend information for probing not only at genome level or protein level but up to whole organism level, or ecosystem level of organization. It provides genome level data for understanding normal biological processes and explains the malfunctioning of genes leading to diagnosing of diseases and designing of new drugs.

6 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Definition of Database Creating database means a coherent collection of data with inherent meaning, used for future application. Database is a general repository of voluminous information or records to be processed by a programme.

7 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT DATABASES SPECIALIZED DATABASES Structural organisation of DNA, protein, carbohydrates Databases of expressed sequences tags, Genome survey sequences, single nucleotide polymorphisms, sequence tagged sites, RNA databases etc. GENERALIZED DATABASES

8 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT GENERALIZED DATABASES SEQUENCE DATABASES STRUCTURE DATABASES Sequence databases are the sequence records of either nucleotides or amino acids Structure databases are the individual records of Macromolecular structures.

9 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Nucleic acid sequence databases European Molecular Biology laboratory (EMBL). National Centre for Biotechnology Information (NCBI). DNA data bank of Japan (DDBJ) are the three premier institutes considered as the authorities in the nucleotide sequence databases. They can be reached at www.ebi.ac.uk/embl (for EMBL) www.ncbi.nlm.nih.gov/genbank (NCBI) www.ddbj.nig.ac.jp (DDBJ )

10 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Genome Sequencing : The genome of an organism can be split up different sized molecules by a technique called electrophoresis. When DNA of an organism is subjected to electrophoresis they migrate towards the positive electrode because DNA is a negatively charged molecule. Smaller DNA fragments move faster than longer ones. By comparing the distances that the DNA fragments migrate, their number of bases could be distinguished. The sequence of bases in the DNA fragments can be identified by chemical / biochemical methods. Nowadays automated sequencing machines called SEUENATORS are developed to read hundreds of bases in the DNA. the DNA sequence data are then stored in a computer accessible form

11 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT DNA library A DNA library is a collection of DNA fragments, which contains all the sequences of a single organism.

12 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT Uses of bioinformatics It helps to understand gene structure and protein synthesis. It helps to know more about the diseases. It helps to understand more about the fundamental biology and the thread of life – the DNA. It paves the way for the medical and bio engineering applications. It helps to apply the biophysical and bio- technological principles to biological studies. In turn, it will help to design new drugs and new chemical compounds to be used in health and environmental management respectively.

13 From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT

Download ppt "From T. MADHAVAN, & K.Chandrasekaran Lecturers in Zoology.. EXIT."

Similar presentations

Martin John Bishop UK HGMP Resource Centre Hinxton Cambridge CB10 1 SB

Martin John Bishop UK HGMP Resource Centre Hinxton Cambridge CB10 1 SB
Test-tube or keyboard? Computation in the life sciences.

Test-tube or keyboard? Computation in the life sciences.
Bio-bio-1 Team Advisor: Dr. Supten Sarbadhikari Members: Fokhruz Zaman Zohirul Alam Tiemoon Saddam Hossain Farjana Khatun.

Bio-bio-1 Team Advisor: Dr. Supten Sarbadhikari Members: Fokhruz Zaman Zohirul Alam Tiemoon Saddam Hossain Farjana Khatun.
KEGG: Kyoto Encyclopedia of Genes and Genomes Susan Seo Intro to Bioinformatics Fall 2004.

KEGG: Kyoto Encyclopedia of Genes and Genomes Susan Seo Intro to Bioinformatics Fall 2004.
Introduction to Bioinformatics Spring 2008 Yana Kortsarts, Computer Science Department Bob Morris, Biology Department.

Introduction to Bioinformatics Spring 2008 Yana Kortsarts, Computer Science Department Bob Morris, Biology Department.
JYC: CSM17 BioinformaticsCSM17 Week1:What is Bioinformatics? A Multidisciplinary Subject incorporating: Biology –the study of living systems Informatics.

JYC: CSM17 BioinformaticsCSM17 Week1:What is Bioinformatics? A Multidisciplinary Subject incorporating: Biology –the study of living systems Informatics.
Introduction to Genomics, Bioinformatics & Proteomics Brian Rybarczyk, PhD PMABS Department of Biology University of North Carolina Chapel Hill.

Introduction to Genomics, Bioinformatics & Proteomics Brian Rybarczyk, PhD PMABS Department of Biology University of North Carolina Chapel Hill.
Genome Related Biological Databases. Content DNA Sequence databases Protein databases Gene prediction Accession numbers NCBI website Ensembl website.

Genome Related Biological Databases. Content DNA Sequence databases Protein databases Gene prediction Accession numbers NCBI website Ensembl website.
The Cell, Central Dogma and Human Genome Project.

The Cell, Central Dogma and Human Genome Project.
Biological Databases Chi-Cheng Lin, Ph.D. Associate Professor Department of Computer Science Winona State University – Rochester Center clin@winona.edu.

Biological Databases Chi-Cheng Lin, Ph.D. Associate Professor Department of Computer Science Winona State University – Rochester Center
Bioinformatics Student host Chris Johnston Speaker Dr Kate McCain.

Bioinformatics Student host Chris Johnston Speaker Dr Kate McCain.
Bioinformatics Original definition (1979 by Paulien Hogeweg): “application of information technology and computer science to the field of molecular biology”

Bioinformatics Original definition (1979 by Paulien Hogeweg): “application of information technology and computer science to the field of molecular biology”
General Microbiology (Micr300) Lecture 11 Biotechnology (Text Chapters: 10.15-10.17; 31.1-31.10)

General Microbiology (Micr300) Lecture 11 Biotechnology (Text Chapters: ; )
Molecular Genetics Introduction to The Structures of DNA and RNA

Molecular Genetics Introduction to The Structures of DNA and RNA
From T. MADHAVAN, M.Sc., M.L.I.S., M.Ed., M.Phil., P.G.D.C.A., Lecturer in Zoology.. EXIT.

From T. MADHAVAN, M.Sc., M.L.I.S., M.Ed., M.Phil., P.G.D.C.A., Lecturer in Zoology.. EXIT.
An Introduction to Bioinformatics Molecular Biology Databases.

An Introduction to Bioinformatics Molecular Biology Databases.
Biotechnology Read textbook sections 20.1 & 20.2 on your own Draw 10 boxes to complete the following notes Turn into the purple box when you are done.

Biotechnology Read textbook sections 20.1 & 20.2 on your own Draw 10 boxes to complete the following notes Turn into the purple box when you are done.
14.3 Studying the Human Genome

14.3 Studying the Human Genome
Genetic Engineering Do you want a footer?.

Genetic Engineering Do you want a footer?.
From Haystacks to Needles AP Biology Fall 2010. Isolating Genes  Gene library: a collection of bacteria that house different cloned DNA fragments, one.

From Haystacks to Needles AP Biology Fall Isolating Genes  Gene library: a collection of bacteria that house different cloned DNA fragments, one.

Similar presentations

Ads by Google