Annotating Retroelements Dotter, identify direct and inverted repeats, and graphically visualize them. (Rough idea of coordinates – highlight in your sequence,

Slides:

Advertisements

Similar presentations

LINEs and SINEs ….& towards cancer! Presenter: Manindra Singh Course: MCB 720 (Winter Qt.)

Advertisements

Genomics – The Language of DNA Honors Genetics 2006.

2 Unité de Biométrie et d’Intelligence Artificielle (UBIA) INRA

Homology Based Analysis of the Human/Mouse lncRNome

Bioinformatics Tutorial I BLAST and Sequence Alignment.

Web Apollo Resources at the National Agricultural Library Christopher Childers NAL ARS USDA i5k.nal.usda.gov.

Annotating a Scarlet Runner Bean genome fragment put together by shotgun sequencing Scarlet Runner ean Max Bachour.

Retroviruses and Retroposons Chapter Introduction Figure 22.1.

Max BachourJessica Chen. Shotgun or 454 sequencing High throughput sequencing technique that can collect a large amount of data at a fast rate. Works.

Peter Tsai, Bioinformatics Institute.  University of California, Santa Cruz (UCSC)  A rapid and reliable display of any requested portion of genomes.

Gene Prediction Methods G P S Raghava. Prokaryotic gene structure ORF (open reading frame) Start codon Stop codon TATA box ATGACAGATTACAGATTACAGATTACAGGATAG.

Genomic Repetitive Elements (Human Focus). TYPES OF ELEMENTS Tandem repeats: a) satellite DNA 1) centromeric and heterochromatic 2) minisatellite 3) microsatellite.

How to access genomic information using Ensembl August 2005.

Kinetics and Components

Genome Annotation BCB 660 October 20, From Carson Holt.

Using DNA Subway in the Classroom Red Line Lesson Sketch.

Wellcome Trust Workshop Working with Pathogen Genomes Module 3 Sequence and Protein Analysis (Using web-based tools)

Using DNA Subway in the Classroom Red Line Lesson Sketch.

Genome Annotation using MAKER-P at iPlant Collaboration with Mark Yandell Lab (University of Utah) iPlant: Josh Stein (CSHL) Matt Vaughn.

Bikash Shakya Emma Lang Jorge Diaz.  BLASTx entire sequence against 9 plant genomes. RepeatMasker  55.47% repetitive sequences  82.5% retroelements.

NCBI Review Concepts Chuong Huynh. NCBI Pairwise Sequence Alignments Purpose: identification of sequences with significant similarity to (a)

Blast 1. Blast 2 Low Complexity masking >GDB1_WHEAT MKTFLVFALIAVVATSAIAQMETSCISGLERPWQQQPLPPQQSFSQQPPFSQQQQQPLPQ QPSFSQQQPPFSQQQPILSQQPPFSQQQQPVLPQQSPFSQQQQLVLPPQQQQQQLVQQQI.

Transposable Elements (TE) in genomic sequence Mina Rho.

MAIZE GENOME ANNOTATION PROJECT AGRY GROUP 2 KARTHIK PADMANABHAN SHUAI CHEN SHAYLYN WIARDA 12/06/12.

Module 3 Sequence and Protein Analysis (Using web-based tools) Working with Pathogen Genomes - Uruguay 2008.

Welcome to DNA Subway Classroom-friendly Bioinformatics.

Functional Annotation of Proteins via the CAFA Challenge Lee Tien Duncan Renfrow-Symon Shilpa Nadimpalli Mengfei Cao COMP150PBT | Fall 2010.

BLAST Basic Local Alignment Search Tool (Altschul et al. 1990)

Browsing the Genome Using Genome Browsers to Visualize and Mine Data.

A unified classification system for eukaryotic transposable elements

Diversity and survival strategies of LTR retrotransposons in the Arabidopsis genome Brooke Peterson-Burch Voytas Laboratory Iowa State University.

Developed by James Estill, Dept. of Plant Biology, University of Georgia.

Transposable elements in Melampsora larici-populina genome Marie-Pierre Oudot-Le Secq Melampsora Genome Consortium 2008 Summer Workshop Melampsora Genome.

Mark D. Adams Dept. of Genetics 9/10/04

Web Databases for Drosophila An introduction to web tools, databases and NCBI BLAST Wilson Leung08/2015.

Annotation of Drosophila virilis Chris Shaffer GEP workshop, 2006.

Large-scale Prediction of Yeast Gene Function Introduction to Bio-Informatics Winter Roi Adadi Naama Kraus

It will help in preparing for the exam to read:

SRB Genome Assembly and Analysis From 454 Sequences HC70AL S Brandon Le & Min Chen.

Genetics …in the news.. Mutations …are heritable changes in base sequences that modify the information content of DNA.

Repetitive element (RE) mediated DNA level recombination by non-allelic homologous recombination (NAHR) as the mechanism for disperse duplication of a.

What is BLAST? Basic BLAST search What is BLAST?

Biotechnology and Bioinformatics: Bioinformatics Essential Idea: Bioinformatics is the use of computers to analyze sequence data in biological research.

Work Presentation Novel RNA genes in A. thaliana Gaurav Moghe Oct, 2008-Nov, 2008.

 DNA- genetic material of eukaryotes.  Are highly variable in size and complexity.  About 3.3 billion bp in humans.  Complexity- due to non coding.

Web Databases for Drosophila

What is BLAST? Basic BLAST search What is BLAST?

Virginia Commonwealth University

Annotating The data.

Anne Brown Josh Fitzgerald Jieqing Ping

Scoring Sequence Alignments Calculating E

Variation among organisms

Basics of BLAST Basic BLAST Search - What is BLAST?

Pick a Gene Assignment 4 Requirements

GEP Annotation Workflow

Evolution of eukaryote genomes

Bioinformatics and BLAST

Nucleic Acid Interactions Practicalities

Gene Annotation with DNA Subway

Cis-regulatory evolution of duplicate genes in yeasts

Cuong Nguyen, Deng Xin, Dongmei, Zheng Wang

Identify D. melanogaster ortholog

Comparative Genomics.

2 Unité de Biométrie et d’Intelligence Artificielle (UBIA) INRA

Introduction to Alternative Splicing and my research report

Genome evolution: Sex and the transposable element

TF candidate selection pipeline.

Chromosomal maps of three M

Expression of Tcs1, Ruby, and Anthocyanin Production in Blood and Blond Oranges in Response to Cold Storage.(A) Detailed map of the Ruby locus with the.

Presentation transcript:

Annotating Retroelements Dotter, identify direct and inverted repeats, and graphically visualize them. (Rough idea of coordinates – highlight in your sequence, and write it down to keep as your “map”) TREP, identify the repetitive elements and their location in the sequence. ( BLAST WHOLE Sequence. Remember to select the complete set and unselect the filter.) Blast2sequences between the two halves of the sequence, to more precisely identify the borders of the repeats (LTRs).

LTR Retroelement LTR SHORT INVERTED REPEATS FLANK LTRHOST REPEATS

LTR Retroelement

TIRs GAGTAAAATGCAAGAAACCCACTTTGAAGGCTAGGTTTGCAGATAACACTA CGTTACATTTTTTGGACAGAAAGCACCACGTCTCGTGTAATCTTGTTGCAA ATAACACTGATTGGCGGATTAGAGCGCTTAAAGTATGTTTATGACAGGAGG GTCCAGATTTTGCCCTTGTGGCGTAACGGCTTGGCCATGACGGCGT > < ACGCCGTTTCGCCCCAAGCCGTTATGTCACATGGGCAAAATCTGGAACCAC CTGTCATAAACACACTTAAAGCACTCTAATCCGCCAATCAGTGTTATTTGC AATAAGATTACACAAAACGTGATGCTTTTTGTTCAAAAAATGTAACGTAGT GTTATCTGCAAACCTAGCCTTCAAAATGGTGGTTTTATGCAATTTACTC Reverse complement

SOLO LTRs LTR SHORT INVERTED REPEATS FLANK LTRHOST REPEATS

Example Retroelement Annotation

FINAL RESULT Gypsy, WHAM TIR, Mutator, Annie SOLO LTR, Copia, WIS

Annotating Complete Sequences Dotter TREP, Blast2sequences BLASTX – sequence that does not include repetitive elements. Identify possible proteins in your sequence. BLASTn – est_others, support predicted proteins with real ESTs FGENESH+ – polish your gene borders and structure BLASTp – validate your predicted protein with related one from BLASTx

Complete Annotation – Identify Retros

Complete Annotation – Identify Genes

FINAL RESULT