Verfügbarkeit: Introductory bioinformatics

Introductory bioinformatics:

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Hauptverfasser:	Hartmann, Stefanie (VerfasserIn), Selbig, Joachim (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Norderstedt Books on Demand 2009
Schlagworte:	Bioinformatik Einführung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 246 S. Ill., graph. Darst. 220 mm x 170 mm, 457 gr.
ISBN:	9783837051896

Internformat

MARC


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Datensatz im Suchindex

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adam_text	Contents I First things first: assembling your toolkit 1 1 What is a gene? 3 1.1 Before the double-helix ............................... 3 1.1.1 It started with peas ............................... 3 1.1.2 ... and continued with flies ......................... 4 1.1.3 One gene - one enzyme ........................... б 1.1.4 It s the DNA!................................ 7 1.2 The famous double helix .............................. 8 1.2.1 The flow of information ........................... 10 1.3 Hypothetical proteins ................................ 13 1.4 Review of terms ................................... 15 1.5 References ...................................... 16 2 Protein structure 17 2.1 Twenty amino acids ................................. 18 2.2 Protein structure ................................... 20 2.3 Describing protein structure ............................. 23 v 2.4 Evolution of protein structure ............................ 25 2.4.1 Structures in the twilight .......................... 26 2.5 Review of terms ................................... 28 2.6 References ...................................... 29 3 Speedy and efficient data analysis 31 3.1 Algorithms ...................................... 31 3.1.1 Do you know a short-cut? .......................... 33 3.2 Graphs ........................................ 36 3.2.1 Graph algorithms .............................. 37 3.3 Machine learning .................................. 39 3.3.1 Linear classification ............................. 40 3.3.2 fc-nearest neighbor classification ...................... 40 3.3.3 Other supervised machine learning methods ................ 40 3.4 Review of terms ................................... 42 3.5 References ...................................... 43 4 The terminal is your friend 45 4.1 The Linux and Unix operating systems ....................... 46 4.1.1 Hold on - what is an operating system anyway?! ............. 46 4.2 The file system ................................... 47 4.2.1 Navigating the file system .......................... 48 4.3 The terminal window ................................ 49 4.4 System utilities ................................... 50 4.4.1 Working with files .............................. 50 4.4.2 Working with file content .......................... 51 4.5 Review of terms ................................... 54 4.6 Computer exercise .................................. 55 4.7 References ...................................... 58 5 /r[e-g]{2}ular expres+ions/ 59 5.1 Pattern ........................................ 59 vi 5.2 A new language ................................... 60 5.2.1 The grammar ................................ 61 5.2.2 The vocabulary ............................... 61 5.2.3 Now what? ................................. 63 5.3 Computer exercise .................................. 65 5.4 References ...................................... 67 6 R 69 6.1 Getting started .................................... 69 6.2 Variables ....................................... 70 6.2.1 One-dimensional variables .......................... 71 6.2.2 Multi-dimensional variables ......................... 72 6.3 Functions ...................................... 73 6.3.1 Mathematical functions ........................... 73 6.3.2 Vector functions ............................... 74 6.3.3 Other functions ............................... 75 6.4 Reading data into R ................................. 75 6.5 Pretty pictures .................................... 77 6.5.1 Generating graphics ............................. 77 6.5.2 Saving graphics ............................... 78 6.6 Computer exercise .................................. 79 6.7 References ...................................... 84 II On your bioinformatics marks, ready - set - go! 85 7 The information superhighway 87 7.1 Online data ..................................... 87 7.2 Primary databases .................................. 89 7.2.1 Sequences .................................. 89 7.2.2 Structures .................................. 94 7.3 Secondary databases ................................. 94 vii 7.3.1 Sequences .................................. 94 7.3.2 Structures .................................. 9б 7.3.3 Motifs, domains, families .......................... 96 7.4 Controlled vocabularies ............................... 100 7.5 A final word of caution ............................... Ю1 7.6 Review of terms ................................... Ю2 7.7 Computer exercise: sequences ............................ ЮЗ 7.8 Computer exercise: structures ............................ 105 7.9 References ...................................... Ю7 8 Pairwise sequence comparisons Ю9 8.1 What is an alignment, and what is it good for? ..................110 8.2 Dotplots .......................................112 8.3 Evaluating alignments ................................113 8.3.1 Matrices for protein alignments .......................115 8.3.2 Scoring schemes for DNA sequences ....................118 8.4 Computing pairwise alignments ...........................118 8.4.1 Optimal alignments .............................118 8.4.2 Fast alignments ...............................120 8.5 Review of terms ...................................126 8.6 Computer exercise ..................................127 8.7 References ......................................129 9 Multiple sequence alignments 131 9.1 Evaluating multiple sequence alignments ...................... 132 9.1.1 Sum-of-pairs ................................. 132 9.1.2 Entropy ................................... 133 9.2 Computing multiple sequence alignments ...................... 134 9.2.1 Progressive sequence alignment ....................... 134 9.2.2 Iterative MSA approaches .......................... 137 9.3 Final words ...................................... I37 viii 9.4 Computer exercise .................................. 138 9.5 References ...................................... 140 10 Trees 141 10.1 Anatomy of a phylogeny .............................. 141 10.1.1 How many trees are there? ......................... 143 10.2 Computing phylogenies ............................... 144 10.2.1 Neighbor Joining .............................. 144 10.2.2 Maximum parsimony ............................ 146 10.2.3 Maximum Likelihood ............................ 149 10.3 How confident are you? ............................... 149 10.4 Gene trees and species tree ............................. 151 10.5 Large scale phylogenetic analyses .......................... 153 10.6 Review of terms ................................... 154 10.7 Computer exercise .................................. 155 10.8 References ...................................... 157 11 Analysis and prediction of secondary structure 159 11.1 Assigning secondary structures in known protein structures ............ 159 11.1.1 DSSP .................................... 160 11.2 Evaluation of predictions .............................. 162 11.2.1 Q3 value ................................... 162 11.2.2 Matthews correlation coefficient ...................... 163 11.2.3 Segment overlap value ........................... 163 11.3 Predicting secondary structure from sequence ................... 164 11.3.1 First Generation approaches ........................ 165 11.3.2 Second generation approaches ....................... 166 11.3.3 Third generation approaches ........................ 167 11.4 Computer exercise .................................. 169 11.5 References ...................................... 170 12 Comparison of 3D structure 171 ix -ι 70 12.1 Similar structures .................................. LllL 12.2 Clique search ..................................... 175 12.3 Distance matrices .................................. I77 12.4 Review of terms ................................... 179 12.5 Computer exercise .................................. 18° 12.6 References ...................................... 182 13 Prediction of 3D structure 183 13.1 How does the biologist do it? ............................ 183 13.2 How does the physicist do it? ............................ 186 13.2.1 Energy functions ............................... 187 13.2.2 Energy minimization - molecular mechanics ................ 188 13.2.3 Molecular dynamics ............................. 188 13.3 When the biologist and the physicist finally meet ................. 188 13.4 References ...................................... 189 14 Statistically describing and displaying bioinformatics data 191 14.1 Just a sample ....................................192 14.2 Descriptive statistics .................................193 14.2.1 Types of data ................................193 14.2.2 Number of variables .............................194 14.2.3 Summarizing numerical data: univariate data ...............194 14.2.4 Summarizing categorical data: univariate data ...............199 14.2.5 Summarizing Divariate data .........................201 14.2.6 Summarizing multivariate data .......................207 14.3 Inferential statistics .................................207 14.3.1 Uncertainty .................................208 14.3.2 Hypothesis testing ..............................208 14.4 Review of terms and concepts ....................... 209 14.5 Computer exercise ........................ 211 14.6 References ............................. 216 χ 15 Probability 217 15.1 Introduction to probability theory .......................... 218 15.1.1 Trials, events, sample space ......................... 218 15.1.2 The nature of events ............................ 221 15.2 Probability distributions ............................... 223 15.2.1 Random variables .............................. 223 15.2.2 Probability distributions ........................... 223 15.2.3 Common probability distributions (discrete) ................ 225 15.2.4 Common probability distributions (continuous) .............. 230 15.3 Review of terms ................................... 233 15.4 Probability problems ................................. 234 15.5 Computer exercise .................................. 235 15.6 References ...................................... 242 xi
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author	Hartmann, Stefanie Selbig, Joachim
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spelling	Hartmann, Stefanie Verfasser aut Introductory bioinformatics Stefanie Hartmann ; Joachim Selbig Norderstedt Books on Demand 2009 XIV, 246 S. Ill., graph. Darst. 220 mm x 170 mm, 457 gr. txt rdacontent n rdamedia nc rdacarrier Bioinformatik (DE-588)4611085-9 gnd rswk-swf (DE-588)4151278-9 Einführung gnd-content Bioinformatik (DE-588)4611085-9 s b DE-604 Selbig, Joachim Verfasser aut Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017989024&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hartmann, Stefanie Selbig, Joachim Introductory bioinformatics Bioinformatik (DE-588)4611085-9 gnd
subject_GND	(DE-588)4611085-9 (DE-588)4151278-9
title	Introductory bioinformatics
title_auth	Introductory bioinformatics
title_exact_search	Introductory bioinformatics
title_full	Introductory bioinformatics Stefanie Hartmann ; Joachim Selbig
title_fullStr	Introductory bioinformatics Stefanie Hartmann ; Joachim Selbig
title_full_unstemmed	Introductory bioinformatics Stefanie Hartmann ; Joachim Selbig
title_short	Introductory bioinformatics
title_sort	introductory bioinformatics
topic	Bioinformatik (DE-588)4611085-9 gnd
topic_facet	Bioinformatik Einführung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017989024&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hartmannstefanie introductorybioinformatics AT selbigjoachim introductorybioinformatics

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