Bioinformatics for DNA Sequence Analysis.pdf - Index of

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Mining for SNPs and SSRs 32127. Katti, M. V., Ranjekar, P. K., and Gupta, V.S. (2001) Differential distribution of simplesequence repeats in eukaryotic genomesequences. Mol Biol Evol 18, 1161–7.28. Schlötterer, C. (2000) Evolutionarydynamics of microsatellite DNA. NucleicAcids Res 20, 211–5.29. Tautz, D. (1989) Hypervariability of simplesequences as a general source for polymorphicDNA markers. Nucleic Acids Res17, 6463–71.30. Powell, W., Machray, G. C. and Provan, J.(1996) Polymorphism revealed by simplesequence repeats. Trends Plant Sci 1,215–22.31. Edwards, K. J., Barker, J. H. A., Daly, A.,Jones, C., and Karp, A. (1996) Microsatellitelibraries enriched for several microsatellitesequences in plants. Biotechniques 20,758–60.32. Robinson, A. J., Love, C. G., Batley, J.,Barker, G., and Edwards, D. (2004) Simplesequence repeat marker loci discovery usingSSRPrimer. Bioinfomatics 20, 1475–6.33. Jewell, E., Robinson, A., Savage, D., Erwin,T., Love, C. G., Lim, G. A. C., Li, X., Batley,J., Spangenberg, G. C., and Edwards, D.(2006) SSR primer and SSR taxonomytree: biome SSR discovery. Nucleic AcidsRes 34, W656–9.34. Abajian, C. (1994) SPUTNIK, http://abajian.net/sputnik/.35. Rozen, S., and Skaletsky, H. J. (2000) Primer3on the WWW for general users and forbiologist programmers, in: BioinformaticsMethods and Protocols: Methods in MolecularBiology (Krawetz S., and Misener S., Eds.),Humana Press, Totowa, NJ, pp 365–86.36. Stajich, J. E., Block, D., Boulez, K., Brenner,S. E., Chervitz, S. A., Dagdigian, C.,Fuellen, G., Gilbert, J. G. R., Korf, I., Lapp,H., Lehvaslaiho, H., Matsalla, C., Mungall,C. J., Osborne, B. I., Pocock, M. R., Schattner,P., Senger, M., Stein, L. D., Stupka, E.,Wilkinson, M. D., and Birney, E. (2002)The Bioperl toolkit: Perl modules for thelife sciences. Genome Res 12, 1611–8.37. Wilson, I. D., Barker, G. L. A., Beswick, R.W., Shepherd, S. K., Lu, C., Coghill, J. A.,Edwards, D., Owen, P., Lyons, R., Parker, J.S., Lenton, J. R., Holdsworth, M. J.,Shewry, P. R., and Edwards, K. J. (2004) Atranscriptomics resource for wheat functionalgenomics. Plant Biotechnol J2,495–506.38. Green, P. (1994) Phrap, unpublished.www.phrap.org.39. Gordon, D., Abajian, C., and Green, P.(1998) Consed: a graphical tool forsequence finishing. Genome Res8, 195–202.
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M ETHODS IN M OLECULAR B IOLOGY TMB
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PrefaceThe recent accumulation of i
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xContents16. Analysis of Transposab
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xiiContributorsJOSHUA WING KEI HO
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Chapter 1Similarity Searching Using
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Similarity Searching Using BLAST 3F
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Similarity Searching Using BLAST 5m
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Similarity Searching Using BLAST 7F
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Similarity Searching Using BLAST 9i
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Similarity Searching Using BLAST 11
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Similarity Searching Using BLAST 13
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16 Menlove, Clement, and Crandallfa
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18 Menlove, Clement, and CrandallFi
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20 Menlove, Clement, and CrandallFi
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Chapter 2Gene Orthology Assessment
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Gene Orthology Assessment with Orth
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Gene Orthology Assessment with Orth
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32 Egan et al.Fig. 2.5. Screenshot
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34 Egan et al.Fig. 2.8. Screenshot
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36 Egan et al.and editing; and (5)
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38 Egan et al.9. Swofford, D. L. (2
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40 Katoh, Asimenos, and Tohmethods
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42 Katoh, Asimenos, and TohabcdeAll
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44 Katoh, Asimenos, and TohA1 A1’
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46 Katoh, Asimenos, and TohMAFFT ac
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48 Katoh, Asimenos, and Tohassuming
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50 Katoh, Asimenos, and Toh2.5. Out
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52 Katoh, Asimenos, and TohIn this
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54 Katoh, Asimenos, and Tohthe geno
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56 Katoh, Asimenos, and TohFragaria
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58 Katoh, Asimenos, and TohacDNAcDN
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60 Katoh, Asimenos, and TohA-B, B-C
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62 Katoh, Asimenos, and TohAcknowle
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64 Katoh, Asimenos, and Toh55. Rosh
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66 Jermiin et al.quantitatively (e.
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68 Jermiin et al.AjamCtubMtubPabrRm
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70 Jermiin et al.Carlo simulation i
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72 Jermiin et al.In the two-dimensi
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74 Jermiin et al.l Toggle between v
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76 Jermiin et al.GCATFig. 4.5. The
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78 Jermiin et al.AGBGCGTCTCTCAAAFig
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SeqVis: Tool for Detecting Composit
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94 Posada(1, 2). In addition, measu
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96 Posadamaximizes a significant ga
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98 Posadaaveraging or multimodel in
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100 PosadaTable 5.1(continued)Model
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102 PosadaFig. 5.5. AIC panel. This
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104 PosadaFig. 5.9. Likelihood calc
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106 PosadaFig. 5.11. AIC selection
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108 PosadaFig. 5.13. AIC model-aver
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110 Posadaunder a maximum likelihoo
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112 Posadathe finite corrections. C
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114 Guindon et al.and MAP, both rel
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116 Guindon et al.compared to the p
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118 Guindon et al.100/1.0099/0.9875
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120 Guindon et al.that some options
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122 Guindon et al.Table 6.2List of
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124 Guindon et al.string ‘‘0100
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126 Guindon et al.likelihood functi
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128 Guindon et al.the earliest dive
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130 Guindon et al.Fig. 6.4. ML phyl
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132 Guindon et al.Fig. 6.5. ML phyl
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134 Guindon et al.also have aLRT va
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136 Guindon et al.References1. Fels
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Chapter 7Trees from Trees: Construc
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Construction of Phylogenetic Supert
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164 Poon, Frost, and Kosakovsky Pon
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1510-5-10-15-20-25-305:12TREESPARRO
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Chapter 9Recombination Detection an
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Recombination Detection and Analysi
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208 Zaneveld et al.equivalent state
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210 Zaneveld et al.the NCBI taxonom
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212 Zaneveld et al.Example: To sele
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214 Zaneveld et al.Fig. 10.6. ‘
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216 Zaneveld et al.(but see Note 14
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218 Zaneveld et al.Table 10.1Compos
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220 Zaneveld et al.Fig. 10.9. A Mon
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222 Zaneveld et al.Fig. 10.11. The
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224 Zaneveld et al.Fig. 10.12. Seve
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226 Zaneveld et al.One difficulty w
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228 Zaneveld et al.lllAde4 and seqi
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230 Zaneveld et al.comparative or c
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232 Zaneveld et al.evolutionary ana
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234 Abascal, Zardoya, and Posadaof
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236 Abascal, Zardoya, and Posada3.
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238 Abascal, Zardoya, and Posada4.
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240 Abascal, Zardoya, and Posadaa--
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242 Abascal, Zardoya, and Posadapar
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244 Blanco and AbrilFinally, both e
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246 Blanco and Abrilwere calculated
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248 Blanco and Abrilannotated on th
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250 Blanco and AbrilFirst, we need
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252 Blanco and AbrilFig.12.2. GeneI
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254 Blanco and AbrilTable 12.1Speci
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256 Blanco and AbrilTable 12.2Sensi
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258 Blanco and Abril5. Notes1. We e
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260 Blanco and AbrilReferences1. Bl
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Chapter 13Promoter Analysis: Gene R
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Gene Regulatory Motif Identificatio
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Chapter 14Analysis of Genomic DNA w
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Analysis of Genomic DNA with UCSC G
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Page 616: 304 Batley and Edwardsassessment, f
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Page 628: 310 Batley and Edwardsthe web serve
Page 632: 312 Batley and EdwardsFig. 15.2. Th
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Page 640: 316 Batley and EdwardsFig. 15.7. FA
Page 644: 318 Batley and EdwardsFig. 15.9. Li
Page 648: 320 Batley and Edwards8. Syvanen, A
Page 654: 324 Huda and JordanTE-related seque
Page 658: 326 Huda and Jordansequences (i.e.,
Page 662: 328 Huda and Jordan2.1.5. Method CE
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Page 670: 332 Huda and JordanFig. 16.4. CENSO
Page 674: 334 Huda and JordanFig. 16.7. Repea
Page 678: 336 Huda and JordanReferences1. Lan
Page 682: 338 RozasDNA polymorphism informati
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Page 690: 342 RozasThe raggedness r statistic
Page 694: 344 Rozasdistribution of D. This di
Page 698: 346 Rozasempirical distribution of
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348 Rozas3. Nucleotide diversity ca
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350 Rozas12. Swofford, D. L. (1998)
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352BIOINFORMATICS FOR DNA SEQUENCE
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354BIOINFORMATICS FOR DNA SEQUENCE
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