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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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SeqVis: Tool for Detecting Composit
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SeqVis: Tool for Detecting Composit
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SeqVis: Tool for Detecting Composit
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SeqVis: Tool for Detecting Composit
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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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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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Construction of Phylogenetic Supert
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164 Poon, Frost, and Kosakovsky Pon
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166 Poon, Frost, and Kosakovsky Pon
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168 Poon, Frost, and Kosakovsky Pon
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170 Poon, Frost, and Kosakovsky Pon
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1510-5-10-15-20-25-305:12TREESPARRO
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174 Poon, Frost, and Kosakovsky Pon
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176 Poon, Frost, and Kosakovsky Pon
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178 Poon, Frost, and Kosakovsky Pon
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180 Poon, Frost, and Kosakovsky Pon
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182 Poon, Frost, and Kosakovsky Pon
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Chapter 9Recombination Detection an
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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Recombination Detection and Analysi
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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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Gene Regulatory Motif Identificatio
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Gene Regulatory Motif Identificatio
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Gene Regulatory Motif Identificatio
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Gene Regulatory Motif Identificatio
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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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Analysis of Genomic DNA with UCSC G
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Analysis of Genomic DNA with UCSC G
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Analysis of Genomic DNA with UCSC G
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Analysis of Genomic DNA with UCSC G
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Analysis of Genomic DNA with UCSC G
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Analysis of Genomic DNA with UCSC G
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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 632: 312 Batley and EdwardsFig. 15.2. Th
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- Page 648: 320 Batley and Edwards8. Syvanen, A
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- Page 662: 328 Huda and Jordan2.1.5. Method CE
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- Page 674: 334 Huda and JordanFig. 16.7. Repea
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- Page 690: 342 RozasThe raggedness r statistic
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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