Ventura Institute of Bio Sciences
 
 
 
Bioinformatics - Training - Ventura Institute of Bio Sciences
Ventura Institute of Bio Sciences
       
  Module Duration
» Preparatory Module 15 days Click for more details
» Basic Module 30 days Click for more details
» Advance Module 60 days Click for more details
» Diploma 3 months Click for more details
» Advance Diploma 6 months Click for more details
» PG Diploma 1 year Click for more details
 
 
PREPARATORY MODULE
Duration - 15 Days
  1. INTRODUCTION TO MOLECULAR BIOLOGY AND ITS APPLICATIONS

  1. DATA AND TEXT MINING

  1. DIFFERENT BIOLOGICAL DATABASES AND SOFTWARES

  1. SEQUENCE RETRIEVAL

  1. PAIR WISE SEQUENCE ALIGNMENT

  1. MULTIPLE SEQUENCE ALIGNMENT

  1. IDENTIFICATION OF CONSERVED ELEMENTS

  1. SECONDARY STRUCTURE PREDICTION

  1. PROTEIN STRUCTURE PREDICTION BY COMPARITIVE MODELLING

  1. 1 BASIC PROJECT

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BASIC MODULE
Duration - 30 Days
  1. BASICS IN MOLECULAR BIOLOGY AND ITS APPLICATIONS IN

  2. BIOINFORMATICS

  1. DATA AND TEXT MINING

  1. DIFFERENT BIOLOGICAL DATABASES AND SOFTWARES

  1. SEQUENCE RETRIEVAL

  1. SIMILARITY SEARCHES, IDENTIFICATION OF HOMOLOGUS SEQUENCES

  1. PAIR WISE SEQUENCE ALIGNMENT

  1. MULTIPLE SEQUENCE ALIGNMENT

  1. IDENTIFICATION OF CONSERVED ELEMENTS

  1. SECONDARY STRUCTURE PREDICTION

  1. PROTEIN STRUCTURE PREDICTION BY COMPARITIVE

  1. MODELLING/HOMOLOGY MODELLING & THREADING

  1. SEQUENCE MOTIF SEARCHING

  1. DOMAIN AND PATTERN RECOGNITION

  1. 2 BASIC PROJECT

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ADVANCE MODULE
Duration - 60 Days
  1. BASICS IN MOLECULAR BIOLOGY AND ITS APPLICATIONS IN BIOINFORMATICS

  1. DATA AND TEXT MINING

  1. DIFFERENT BIOLOGICAL DATABASES AND SOFTWARES

  1. SEQUENCE RETRIEVAL

  1. SEQUENCE FORMATS AND CONVERSIONS

  1. SIMILARITY SEARCHES, IDENTIFICATION OF HOMOLOGUS SEQUENCES

  1. PAIR WISE SEQUENCE ALIGNMENT

  1. MULTIPLE SEQUENCE ALIGNMENT

  1. RNA SECONDARY STRUCTURE PREDICTION

  1. IDENTIFICATION OF CONSERVED ELEMENTS

  1. PROTEO INFORMATICS

  1. Protein physico – chemical properties
  2. Secondary structure prediction
  3. Protein structure prediction by comparitive modelling/homology modelling & threading
  4. Sequence motif searching
  5. Domain and pattern recognition
  1. GENE INFORMATICS

  1. Computational genomics
  2. Gene finding in prokaryotes
  3. Gene finding in eukaryotes
  1. 2 BASIC PROJECTS

  1. 1 ADVANCED PROJECT

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DIPLOMA
Duration - 3 months
  1. MOLECULAR BIOLOGY CONCEPTS AND ITS APPLICATIONS IN BIOINFORMATICS

  1. DATA AND TEXT MINING

  1. DIFFERENT BIOLOGICAL DATABASES AND SOFTWARES

  1. SEQUENCE RETRIEVAL

  1. SEQUENCE FORMATS AND CONVERSIONS

  1. SIMILARITY SEARCHES, IDENTIFICATION OF HOMOLOGUS SEQUENCES

  1. RNA SECONDARY STRUCTURE PREDICTION

  1. DOT MATRIX & DYNAMIC PROGRAMMING METHODS

  1. SCORING SYSTEMS AND MATRICES

  1. PAIR WISE SEQUENCE ALIGNMENT

  1. MULTIPLE SEQUENCE ALIGNMENT

  1. PHYLOGENETIC STUDIES

  1. IDENTIFICATION OF CONSERVED ELEMENTS

  1. PROTEO INFORMATICS

  1. Protein physico – chemical properties
  2. Hydrophilicity & hydrophobicity patterns
  3. Secondary structure prediction
  4. Protein structure prediction by comparative modeling/homology modeling & threading
  5. Sequence motif searching
  6. Domain and pattern recognition
  1. GENE INFORMATICS

  1. Computational genomics
  2. Gene finding in prokaryotes
  3. Gene finding in eukaryotes
  4. Open Reading frame Prediction
  5. Coding Region Identification
  1. INTRODUCTION TO MOLECULAR MODELING, VACCINOLOGY, DRUG DESIGNING

  1. SPECIALIZATION IN EITHER MOLECULAR MODELING OR DRUG DESIGNING OR VACCINOLOGY

  1. OVERVIEW AND SCOPE OF CHEMINFORMATICS

  1. 2 BASIC PROJECTS

  1. 1 ADVANCED PROJECT

  1. 1 MAJOR PROJECT
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ADVANCE DIPLOMA
Duration - 6 months
  1. MOLECULAR BIOLOGY CONCEPTS AND ITS APPLICATIONS IN BIOINFORMATICS
  1. DATA AND TEXT MINING

  1. DIFFERENT BIOLOGICAL DATABASES AND SOFTWARES

  1. SEQUENCE RETRIEVAL

  1. SEQUENCE FORMATS AND CONVERSIONS

  2. SIMILARITY SEARCHES, IDENTIFICATION OF HOMOLOGUS SEQUENCES

  1. RNA SECONDARY STRUCTURE PREDICTION

  1. DOT MATRIX & DYNAMIC PROGRAMMING METHODS

  1. SCORING SYSTEMS AND MATRICES

  1. PAIR WISE SEQUENCE ALIGNMENT

  1. MULTIPLE SEQUENCE ALIGNMENT

  1. PHYLOGENETIC STUDIES

  1. IDENTIFICATION OF CONSERVED ELEMENTS

  1. PROTEO INFORMATICS

  1. Protein physico – chemical properties
  2. Hydrophilicity & hydrophobicity patterns
  3. Secondary structure prediction
  4. Protein structure prediction by comparitive modelling/homology modelling & threading
  5. Sequence motif searching
  6. Domain and pattern recognition
  1. GENE INFORMATICS

  1. Computational genomics
  2. Gene finding in prokaryotes
  3. Gene finding in eukaryotes
  4. Open Reading frame Prediction
  5. Coding Region Identification
  1. INTRODUCTION TO MOLECULAR MODELING, VACCINOLOGY, DRUG DESIGNING

  1. SPECIALIZATION IN ANY TWO - MOLECULAR MODELING OR DRUG DESIGNING OR VACCINOLOGY

  1. OVERVIEW AND SCOPE OF CHEMINFORMATICS

  1. OVERVIEW AND SCOPE OF PHARMACOINFORMATICS

  1. PRIMER DESIGNING

  2. MICRO ARRAYS

  1. 2 BASIC PROJECTS

  1. 2 ADVANCED PROJECTS

  1. 1 MAJOR PROJECT

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P.G. DIPLOMA
Duration - 1 year
  1. MOLECULAR BIOLOGY CONCEPTS AND ITS APPLICATIONS IN BIOINFORMATICS
  1. DATA AND TEXT MINING

  1. DIFFERENT BIOLOGICAL DATABASES AND SOFTWARES

  1. SEQUENCE RETRIEVAL

  1. SEQUENCE FORMATS AND CONVERSIONS

  2. SIMILARITY SEARCHES, IDENTIFICATION OF HOMOLOGUS SEQUENCES

  1. RNA SECONDARY STRUCTURE PREDICTION

  1. DOT MATRIX & DYNAMIC PROGRAMMING METHODS

  1. SCORING SYSTEMS AND MATRICES

  1. PAIR WISE SEQUENCE ALIGNMENT

  1. MULTIPLE SEQUENCE ALIGNMENT

  1. PHYLOGENETIC STUDIES

  1. IDENTIFICATION OF CONSERVED ELEMENTS

  1. PROTEO INFORMATICS

  1. Protein physico – chemical properties
  2. Hydrophilicity & hydrophobicity patterns
  3. Secondary structure prediction
  4. Protein structure prediction by comparitive modelling/homology modelling & threading
  5. Sequence motif searching
  6. Domain and pattern recognition
  1. GENE INFORMATICS

  1. Computational genomics
  2. Gene finding in prokaryotes
  3. Gene finding in eukaryotes
  4. Open Reading frame Prediction
  5. Coding Region Identification
  1. INTRODUCTION TO MOLECULAR MODELING, VACCINOLOGY, DRUG DESIGNING

  1. SPECIALIZATION IN ANY TWO - MOLECULAR MODELING OR DRUG DESIGNING OR VACCINOLOGY

  1. OVERVIEW AND SCOPE OF CHEMINFORMATICS

  1. OVERVIEW AND SCOPE OF PHARMACOINFORMATICS

  1. PRIMER DESIGNING

  2. MICRO ARRAYS

  1. 2 BASIC PROJECTS

  1. 2 ADVANCED PROJECTS

  1. 1 MAJOR PROJECT


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