| Record ID | marc_columbia/Columbia-extract-20221130-007.mrc:171430351:3667 |
| Source | marc_columbia |
| Download Link | /show-records/marc_columbia/Columbia-extract-20221130-007.mrc:171430351:3667?format=raw |
LEADER: 03667mam a2200349 a 4500
001 3148906
005 20221019233352.0
008 011102t20012001caua 001 0 eng d
020 $a0596000804
035 $a(OCoLC)49583667
035 $a(OCoLC)ocm49583667
035 $9ATY6378CU
035 $a(NNC)3148906
035 $a3148906
040 $aWIY$cWIY$dCUS$dOrLoB-B
090 $aQA76.73.P22$bT57 2001
096 $aQA 76.73 P22$bT57 2001
100 1 $aTisdall, James D.$0http://id.loc.gov/authorities/names/no2001100826
245 10 $aBeginning Perl for bioinformatics /$cJames D. Tisdall.
250 $a1st ed.
260 $aSebastopol, CA :$bO'Reilly,$c[2001], ©2001.
300 $axiii, 368 pages :$billustrations ;$c24 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references (p. 309-314) and index.
500 $a"An introduction to Perl for biologists"--Cover.
505 00 $g1.$tBiology and Computer Science.$tThe Organization of DNA.$tThe Organization of Proteins.$tIn Silico.$tLimits to Computation --$g2.$tGetting Started with Perl.$tA Low and Long Learning Curve.$tPerl's Benefits.$tInstalling Perl on Your Computer.$tHow to Run Perl Programs.$tText Editors.$tFinding Help --$g3.$tThe Art of Programming.$tIndividual Approaches to Programming.$tEdit - Run - Revise (and Save).$tAn Environment of Programs.$tProgramming Strategies.$tThe Programming Process --$g4.$tSequences and Strings.$tRepresenting Sequence Data.$tA Program to Store a DNA Sequence.$tConcatenating DNA Fragments.$tTranscription: DNA to RNA.$tUsing the Perl Documentation.$tCalculating the Reverse Complement in Perl.$tProteins, Files, and Arrays.$tReading Proteins in Files.$tArrays.$tScalar and List Context.$tExercises --$g5.$tMotifs and Loops.$tFlow Control.$tCode Layout.$tFinding Motifs.$tCounting Nucleotides.$tExploding Strings into Arrays.$tOperating on Strings.$tWriting to Files.$tExercises --
505 80 $g6.$tSubroutines and Bugs.$tSubroutines.$tScoping and Subroutines.$tCommand-Line Arguments and Arrays.$tPassing Data to Subroutines.$tModules and Libraries of Subroutines.$tFixing Bugs in Your Code.$tExercises --$g7.$tMutations and Randomization.$tRandom Number Generators.$tA Program Using Randomization.$tA Program to Simulate DNA Mutation.$tGenerating Random DNA.$tAnalyzing DNA.$tExercises --$g8.$tThe Genetic Code.$tHashes.$tData Structures and Algorithms for Biology.$tThe Genetic Code.$tTranslating DNA into Proteins.$tReading DNA from Files in FASTA Format.$tReading Frames.$tExercises --$g9.$tRestriction Maps and Regular Expression.$tRegular Expressions.$tRestriction Maps and Restriction Enzymes.$tPerl Operations.$tExercises --$g10.$tGenBank.$tGenBank Files.$tGenBank Libraries.$tSeparating Sequence and Annotation.$tParsing Annotations.$tIndexing GenBank with DBM.$tExercises --$g11.$tProtein Data Bank.$tFiles and Folders.$tPDB Files.$tParsing PDB Files.$tControlling Other Programs.$tExercises --
505 80 $g12.$tBLAST.$tObtaining BLAST.$tString Matching and Homology.$tBLAST Output Files.$tParsing BLAST Output.$tPresenting Data.$tBioperl.$tExercises --$g13.$tFurther Topics.$tThe Art of Program Design.$tWeb Programming.$tAlgorithms and Sequence Alignment.$tObject-Oriented Programming.$tPerl Modules.$tComplex Data Structures.$tRelational Databases.$tMicroarrays and XML.$tGraphics Programming.$tModeling Networks.$tDNA Computers.$gB.$tPerl Summary.
650 0 $aPerl (Computer program language)$0http://id.loc.gov/authorities/subjects/sh95010633
650 0 $aBioinformatics.$0http://id.loc.gov/authorities/subjects/sh00003585
852 00 $bsci$hQA76.73.P22$iT57 2001g