Gtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca gcttttcattctgactgcaacgggcaatatgtctctgtgtggattaaaaaaagagtgtctgatagcagcttctgaactggttacctgccgtgagtaaattaaaattttattgactta.

Slides:

Advertisements

Similar presentations

Introductory to database handling Endre Sebestyén.

Advertisements

Genome Annotation: A Protein-centric Perspective.

Creating NCBI The late Senator Claude Pepper recognized the importance of computerized information processing methods for the conduct of biomedical research.

UniProt Eric Jain Swiss Institute of Bioinformatics, Geneva W3C Workshop on Semantic Web for Life Sciences, October 2004.

1 Introduction to Bioinformatics Fall Administration  Adi Doron  Nimrod Rubinstein  Dudu Burstein.

Scratchpads Publishing biodiversity: The interplay between Scratchpads and the Biodiversity Data Journal Dr Dimitrios Koureas Biodiversity Informatics.

Банки информации в молекулярной биологии С.А.Спирин 11/III – 2006.

Bioinformatics and Chips Bioinformatics is a very integral part of each step in a chip project. Bioinformatics is a very integral part of each step in.

Биоинформатика Исследование информационных процессов в биологических системах (клетках, органах, организме, популяции). Изучение и внедрение в компьютерную.

GENBANK, SWISSPROT AND OTHERS As Problem Sources for CSE 549 Andriy Tovkach Genetics.

Protein databases Morten Nielsen. Background- Nucleotide databases GenBank, National Center for Biotechnology Information.

Genome Related Biological Databases. Content DNA Sequence databases Protein databases Gene prediction Accession numbers NCBI website Ensembl website.

Biological Databases Chi-Cheng Lin, Ph.D. Associate Professor Department of Computer Science Winona State University – Rochester Center

Gtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca gcttttcattctgactgcaacgggcaatatgtctctgtgtggattaaaaaaagagtgtctgatagcagcttctgaactggttacctgccgtgagtaaattaaaattttattgactta.

Introduction to Bioinformatics - Tutorial no. 5 MEME – Discovering motifs in sequences MAST – Searching for motifs in databanks TRANSFAC – The Transcription.

Swiss-Prot – одна из первых баз данных белковых последовательностей, “gold standard” белковой аннотации. Аннотация выполнена вручную группой профессиональных.

Gtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca gcttttcattctgactgcaacgggcaatatgtctctgtgtggattaaaaaaagagtgtctgatagcagcttctgaactggttacctgccgtgagtaaattaaaattttattgactta.

Class European Resources Protein Focused. Protein Databases EBI – European Bioinformatics Institute

Как найти последовательность, кодирующую Ваш белок? Как найти последовательность ДНК, кодирующую Ваш белок: – Ссылки из белковых баз данных – Прямой поиск.

Что такое биоинформатика? Банк SwissProt С.А.Спирин 7, 8,10 февраля 2006 г., ФББ МГУ.

Claire O’Donovan EMBL-EBI. In UniProtKB, we aim to provide… o A high quality protein sequence database A non redundant protein database, with maximal.

An Introduction to Bioinformatics Molecular Biology Databases.

Data Formats & QC Analysis for NGS Rosana O. Babu 8/19/20151.

DbSNP: the NCBI database of genetic variation S. T. Sherry, M.H. Ward, M. Kholodov, J. Baker, L. Phan, E. M. Smigielski and K. Sirotkin, Nucleic Acids.

Wellcome Trust Workshop Working with Pathogen Genomes Module 1 Artemis.

The PIR-PSD current release 78.03, November 24, 2003, contains entries. 65 proteins The PIR was established in 1984 by the National Biomedical.

Pattern databasesPattern databasesPattern databasesPattern databases Gopalan Vivek.

Databases in Bioinformatics and Systems Biology Carsten O. Daub Omics Science Center RIKEN, Japan May 2008.

Introduction to databases Tuomas Hätinen. Topics File Formats Databases -Primary structure: UniProt -Tertiary structure: PDB Database integration system.

Introduction to next generation sequencing Rolf Sommer Kaas.

Bsubt.embl complete entry in EMBL format (DNA and Features) bsubt.embl.Z bsubt.fasta complete DNA sequence in Fasta format bsubt.fasta.Z bsubt.con construct.

The Anglo-French Alliance Genomics Workshop -1- UNIX Module.

Biological databases Nicky Mulder:

Biological Databases By : Lim Yun Ping E mail :

Fortaleza 31.VII.2006 UniProtKB: Questions and answers UniProtKB/Swiss-Prot: Questions, Answers and a few Tips.

جلسه اول بیو انفورماتیک گردآوری:مسعود رسول آبادی

Sequence Search and Analysis SPE 1653 (703)

Alastair Kerr, Ph.D. WTCCB Bioinformatics Core An introduction to DNA and Protein Sequence Databases.

Function preserves sequences

Biological databases an introduction By Dr. Erik Bongcam-Rudloff LCB-UU/SLU ILRI 2007 By Dr. Erik Bongcam-Rudloff LCB-UU/SLU ILRI 2007.

PROTEIN DATABASES. The ideal sequence database for computational analyses and data-mining: I t must be complete with minimal redundancy It must contain.

Biological databases Exercises. Discovery of distinct sequence databases using ensembl.

Introduction to Bioinformatics and Biological databases Nicky Mulder:

Computer Storage of Sequences

Sequence Tracking Deanna M. Church Staff Scientist, Short Course in Medical Genetics 2013 Understanding your sequence context.

Primary vs. Secondary Databases Primary databases are repositories of “raw” data. These are also referred to as archival databases. -This is one of the.

A Field Guide to GenBank and NCBI Molecular Biology Resources

The BARCODE Data Standard: CBOL’s Partnership with the International Nucleotide Sequence Database Collaboration (INSDC) David E. Schindel, Executive Secretary.

Copyright OpenHelix. No use or reproduction without express written consent1.

Funded by: The EMBL Nucleotide Sequence Database: Exploiting commonalities between records.

1 EMBL Outstation — The European Bioinformatics Institute Mus musculus - a model organism in SWISS-PROT.

Introduction to Bioinformatics - Tutorial no. 5 MEME – Discovering motifs in sequences MAST – Searching for motifs in databanks TRANSFAC – the Transcription.

1 of 28 Evaluating Genes and Transcripts (“Genebuild”)

GENBANK FILE FORMAT LOCUS –LOCUS NAME Is usually the first letter of the genus and species name, followed by the accession number –SEQUENCE LENGTH Number.

Bioinformatics. History Margaret Dayhoff, 1965: Atlas of Protein Sequence and Structure Brookhaven, 1970s: Protein Data Bank (PDB) Needleman & Wunsch,

What is sequencing? Video: WlxM (Illumina video) WlxM.

6/12/2016 4:30:21 PM Sequence File formats and format conversion tools Dinesh Gupta (ICGEB, New Delhi, India)

Gtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca gcttttcattctgactgcaacgggcaatatgtctctgtgtggattaaaaaaagagtgtctgatagcagcttctgaactggttacctgccgtgagtaaattaaaattttattgactta.

Barcode sequences at GenBank

Genome Annotation.

Protein databases Henrik Nielsen

생물정보학 Bioinformatics.

Presentation Title Here

Swiss-Prot Database --- Xie, H

Access to Sequence Data and Related Information

Chapter 3. THE GENBANK SEQUENCE DATABASE

Introduction to Databases

Biological Databases.

SUBMITTED BY: DEEPTI SHARMA BIOLOGICAL DATABASE AND SEQUENCE ANALYSIS.

Presentation transcript:

gtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca gcttttcattctgactgcaacgggcaatatgtctctgtgtggattaaaaaaagagtgtctgatagcagcttctgaactggttacctgccgtgagtaaattaaaattttattgactta ggtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca acggtgcgggctgacgcgtacaggaaacacagaaaaaagcccgcacctgacagtgcgggctttttttttcgaccaaaggtaacgaggtaacaaccatgcgagtgttgaagttcggca aattgaaaactttcgtcgatcaggaatttgcccaaataaaacatgtcctgcatggcattagtttgttggggcagtgcccggatagcatcaacgctgcgctgatttgccgtggcgaga tgtcgatcgccattatggccggcgtattagaagcgcgcggtcacaacgttactgttatcgatccggtcgaaaaactgctggcagtggggcattacctcgaatctaccgtcgatattg agtccacccgccgtattgcggcaagccgcattccggctgatcacatggtgctgatggcaggtttcaccgccggtaatgaaaaaggcgaactggtggtgcttggacgcaacggttccg actctgctgcggtgctggctgcctgtttacgcgccgattgttgcgagatttggacggacgttgacggggtctatacctgcgacccgcgtcaggtgcccgatgcgaggttgttgaagt tgtcctaccaggaagcgatggagctttcctacttcggcgctaaagttcttcacccccgcaccattacccccatcgcccagttccagatcccttgcctgattaaaaataccggaaatc aagcaccaggtacgctcattggtgccagccgtgatgaagacgaattaccggtcaagggcatttccaatctgaataacatggcaatgttcagcgtttctggtccggggatgaaaggga tcggcatggcggcgcgcgtctttgcagcgatgtcacgcgcccgtatttccgtggtgctgattacgcaatcatcttccgaatacagcatcagtttctgcgttccacaaagcgacttgc gagctgaacgggcaatgcaggaagagttctacctggaactgaaagaaggcttactggagccgctggcagtgacggaacggctggccattatctcggtggtaggtgatggtagcacct tgcgtgggatctcggcgaaattctttgccgcactggcccgcgccaatatcaacattgtcgccattgctcagggatcttctgaacgctcaatctctgtcgtggtaaataacgatgatg ccactggcgtgcgcgttactcatcagatgctgttcaataccgatcaggttatcgaagtgtttgtgattggcgtcggtggcgttggcggtgcgctgctggagcaactgaagcgtcagc gctggctgaagaataaacatatcgacttacgtgtctgcggtgttgccaactcgaaggctctgctcaccaatgtacatggccttaatctggaaaactggcaggaagaactggcgcaag aagagccgtttaatctcgggcgcttaattcgcctcgtgaaagaatatcatctgctgaacccggtcattgttgactgcacttccagccaggcagtggcggatcaatatgccgacttgc gcgaaggtttccacgttgtcacgccgaacaaaaaggccaacacctcgtcgatggattactaccatcagttgcgttatgcggcggaaaaatcgcggcgtaaattcctctatgacacca ttggggctggattaccggttattgagaacctgcaaaatctgctcaatgcaggtgatgaattgatgaagttctccggcattctttctggttcgctttcttatatcttcggcaagttag Нуклеотидные последовательности (номенклатура, правила записи и чтения) gtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca gcttttcattctgactgcaacgggcaatatgtctctgtgtggattaaaaaaagagtgtctgatagcagcttctgaactggttacctgccgtgagtaaattaaaattttattgactta ggtcactaaatactttaaccaatataggcatagcgcacagacagataaaaattacagagtacacaacatccatgaaacgcattagcaccaccattaccaccaccatcaccattacca acggtgcgggctgacgcgtacaggaaacacagaaaaaagcccgcacctgacagtgcgggctttttttttcgaccaaaggtaacgaggtaacaaccatgcgagtgttgaagttcggca aattgaaaactttcgtcgatcaggaatttgcccaaataaaacatgtcctgcatggcattagtttgttggggcagtgcccggatagcatcaacgctgcgctgatttgccgtggcgaga tgtcgatcgccattatggccggcgtattagaagcgcgcggtcacaacgttactgttatcgatccggtcgaaaaactgctggcagtggggcattacctcgaatctaccgtcgatattg agtccacccgccgtattgcggcaagccgcattccggctgatcacatggtgctgatggcaggtttcaccgccggtaatgaaaaaggcgaactggtggtgcttggacgcaacggttccg actctgctgcggtgctggctgcctgtttacgcgccgattgttgcgagatttggacggacgttgacggggtctatacctgcgacccgcgtcaggtgcccgatgcgaggttgttgaagt tgtcctaccaggaagcgatggagctttcctacttcggcgctaaagttcttcacccccgcaccattacccccatcgcccagttccagatcccttgcctgattaaaaataccggaaatc aagcaccaggtacgctcattggtgccagccgtgatgaagacgaattaccggtcaagggcatttccaatctgaataacatggcaatgttcagcgtttctggtccggggatgaaaggga tcggcatggcggcgcgcgtctttgcagcgatgtcacgcgcccgtatttccgtggtgctgattacgcaatcatcttccgaatacagcatcagtttctgcgttccacaaagcgacttgc gagctgaacgggcaatgcaggaagagttctacctggaactgaaagaaggcttactggagccgctggcagtgacggaacggctggccattatctcggtggtaggtgatggtagcacct tgcgtgggatctcggcgaaattctttgccgcactggcccgcgccaatatcaacattgtcgccattgctcagggatcttctgaacgctcaatctctgtcgtggtaaataacgatgatg ccactggcgtgcgcgttactcatcagatgctgttcaataccgatcaggttatcgaagtgtttgtgattggcgtcggtggcgttggcggtgcgctgctggagcaactgaagcgtcagc gctggctgaagaataaacatatcgacttacgtgtctgcggtgttgccaactcgaaggctctgctcaccaatgtacatggccttaatctggaaaactggcaggaagaactggcgcaag aagagccgtttaatctcgggcgcttaattcgcctcgtgaaagaatatcatctgctgaacccggtcattgttgactgcacttccagccaggcagtggcggatcaatatgccgacttgc gcgaaggtttccacgttgtcacgccgaacaaaaaggccaacacctcgtcgatggattactaccatcagttgcgttatgcggcggaaaaatcgcggcgtaaattcctctatgacacca ttggggctggattaccggttattgagaacctgcaaaatctgctcaatgcaggtgatgaattgatgaagttctccggcattctttctggttcgctttcttatatcttcggcaagttag

ДНК Повторяем: фосфодиэфирные связи; сахарофосфатный остов; антипараллельные цепи; 3'- и 5'- конец; канонические пары.

Рост числа известных последовательностей Почему?

ATCGTGCAGTGCGTAAACGTAGCAGTCGA UACGACGUCACGCAU 3’ 5’ 3’ ДНК РНК AGCTGACGATGCAAATGCGTGACGTGCTA UACGACGUCACGCAU Запись: ДНК РНК 5’5’3’ Последовательность = последовательность однобуквенных символов. Никаких дефисов и обозначений фосфодиэфирных связей. Одни и те же буквы используются для записи ДНК и РНК (исключение: U) Направление: 5’ -> 3’

Общепринятые однобуквенные обозначения для стандартных азотистых оснований (остатков нуклеозидов и нуклеотидов) и вырожденных позиций в выравниваниях нуклеиновых кислот

Банки данных нуклеотидных последовательностей ACGTA GCGTGC TTGC AAATTG AGCTGAAA AAA CGCG ATGCGATCGATC GGGGCCCTCG AAATTTCGCG ATCTG ATTGC ATCGTAGCT ATC

INSDC (International Nucleotide Sequence Database Collaboration) GenBankEMBL DDBJ SRA Trace Archive

DDBJEMBL GenBank -банки-архивы -обмениваются данными -1 запись = 1 эксперимент -границы экспериментальные, а не естественные

ID - identification (begins each entry; 1 per entry) AC - accession number (>=1 per entry) PR - project identifier (0 or 1 per entry) DT - date (2 per entry) DE - description (>=1 per entry) KW - keyword (>=1 per entry) OS - organism species (>=1 per entry) OC - organism classification (>=1 per entry) OG - organelle (0 or 1 per entry) RN - reference number (>=1 per entry) RC - reference comment (>=0 per entry) RP - reference positions (>=1 per entry) RX - reference cross-reference (>=0 per entry) RG - reference group (>=0 per entry) RA - reference author(s) (>=0 per entry) RT - reference title (>=1 per entry) RL - reference location (>=1 per entry) DR - database cross-reference (>=0 per entry) CC - comments or notes (>=0 per entry) AH - assembly header (0 or 1 per entry) AS - assembly information (0 or >=1 per entry) FH - feature table header (2 per entry) FT - feature table data (>=2 per entry) XX - spacer line (many per entry) SQ - sequence header (1 per entry) CO - contig/construct line (0 or >=1 per entry) bb - (blanks) sequence data (>=1 per entry) // - termination line (ends each entry; 1 per entry)

FT Key Location/Qualifiers=value

INSDC (International Nucleotide Sequence Database Collaboration) GenBankEMBL DDBJ SRA Trace Archive

RefSeq запись = 1 последовательность -Границы естественные, а не экспериментальные Нуклеотидные банки NCBI GenBank - Включает последовательности полных геномов Genome - содержит то же, что EMBL

Нуклеотидные банки NCBI Nucleotide -виртуальный банк -включает все перечисленное

Методы поиска -SRS -Поиск NCBI -ENA -MRS