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Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity Best command-line options BLAT Fast, less sensitive Good for comparing very similar sequences finding rough homology map

Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

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Page 1: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Building synteny maps

Recommended local aligners• BLASTZ

Most accurate, especially for genes Chains local alignments

• WU-BLAST Good tradeoff of efficiency/sensitivity Best command-line options

• BLAT Fast, less sensitive Good for

• comparing very similar sequences • finding rough homology map

http://www.psc.edu/general/software/packages/blastz/
http://blast.wustl.edu/
http://genome.ucsc.edu/cgi-bin/hgBlat
Page 2: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Index-based local alignment

Dictionary:

All words of length k (~10)

Alignment initiated between words of alignment score T

(typically T = k)

Alignment:

Ungapped extensions until score

below statistical threshold

Output:

All local alignments with score

> statistical threshold

……

……

query

DB

query

scan

Question: Using an idea from overlap detection, better way to find all local alignments between two genomes?

Page 3: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Local Alignments

Page 4: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

After chaining

Page 5: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Chaining local alignments

1. Find local alignments

2. Chain -O(NlogN) L.I.S.

3. Restricted DP

Page 6: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Progressive Alignment

• When evolutionary tree is known:

Align closest first, in the order of the tree In each step, align two sequences x, y, or profiles px, py, to generate a new

alignment with associated profile presult

Weighted version: Tree edges have weights, proportional to the divergence in that edge New profile is a weighted average of two old profiles

x

w

y

z

Example

Profile: (A, C, G, T, -)px = (0.8, 0.2, 0, 0, 0)py = (0.6, 0, 0, 0, 0.4)

s(px, py) = 0.8*0.6*s(A, A) + 0.2*0.6*s(C, A) + 0.8*0.4*s(A, -) + 0.2*0.4*s(C, -)

Result: pxy = (0.7, 0.1, 0, 0, 0.2)

s(px, -) = 0.8*1.0*s(A, -) + 0.2*1.0*s(C, -)

Result: px- = (0.4, 0.1, 0, 0, 0.5)

Page 7: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Threaded Blockset Aligner

Human–Cow

HMR – CDRestricted AreaProfile Alignment

Page 8: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Reconstructing the Ancestral Mammalian Genome

Human: C

Baboon: C

Cat: C

Dog: G

C

C or G

G

Page 9: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Neutral Substitution Rates Dataset 3: 4-D sites

Page 10: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Finding Conserved Elements (1)

• Binomial method 25-bp window in the human genome Binomial distribution of k matches in N bases given the neutral

probability of substitution

Page 11: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Finding Conserved Elements (2)

• Parsimony Method Count minimum # of mutations explaining each column Assign a probability to this parsimony score given neutral model Multiply probabilities across 25-bp window of human genome

A

CAAG

Page 12: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Finding Conserved Elements

Page 13: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Finding Conserved Elements (3)

GERP

Page 14: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Phylo HMMs

HMM

Phylogenetic Tree Model

Phylo HMM

Page 15: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Finding Conserved Elements (3)

Page 16: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

How do the methods agree/disagree?

Page 17: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Statistical Power to Detect Constraint

L

N

C: cutoff # mutationsD: neutral mutation rate: constraint mutation rate relative to neutral

Page 18: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Statistical Power to Detect Constraint

L

N

C: cutoff # mutationsD: neutral mutation rate: constraint mutation rate relative to neutral

Page 19: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

TTATATTGAATTTTCAAAAATTCTTACTTTTTTTTTGGATGGACGCAAAGAAGTTTAATAATCATATTACATGGCATTACCACCATATACATATCCATATCTAATCTTACTTATATGTTGTGGAAATGTAAAGAGCCCCATTATCTTAGCCTAAAAAAACCTTCTCTTTGGAACTTTCAGTAATACGCTTAACTGCTCATTGCTATATTGAAGTACGGATTAGAAGCCGCCGAGCGGGCGACAGCCCTCCGACGGAAGACTCTCCTCCGTGCGTCCTCGTCTTCACCGGTCGCGTTCCTGAAACGCAGATGTGCCTCGCGCCGCACTGCTCCGAACAATAAAGATTCTACAATACTAGCTTTTATGGTTATGAAGAGGAAAAATTGGCAGTAACCTGGCCCCACAAACCTTCAAATTAACGAATCAAATTAACAACCATAGGATGATAATGCGATTAGTTTTTTAGCCTTATTTCTGGGGTAATTAATCAGCGAAGCGATGATTTTTGATCTATTAACAGATATATAAATGGAAAAGCTGCATAACCACTTTAACTAATACTTTCAACATTTTCAGTTTGTATTACTTCTTATTCAAATGTCATAAAAGTATCAACAAAAAATTGTTAATATACCTCTATACTTTAACGTCAAGGAGAAAAAACTATAATGACTAAATCTCATTCAGAAGAAGTGATTGTACCTGAGTTCAATTCTAGCGCAAAGGAATTACCAAGACCATTGGCCGAAAAGTGCCCGAGCATAATTAAGAAATTTATAAGCGCTTATGATGCTAAACCGGATTTTGTTGCTAGATCGCCTGGTAGAGTCAATCTAATTGGTGAACATATTGATTATTGTGACTTCTCGGTTTTACCTTTAGCTATTGATTTTGATATGCTTTGCGCCGTCAAAGTTTTGAACGATGAGATTTCAAGTCTTAAAGCTATATCAGAGGGCTAAGCATGTGTATTCTGAATCTTTAAGAGTCTTGAAGGCTGTGAAATTAATGACTACAGCGAGCTTTACTGCCGACGAAGACTTTTTCAAGCAATTTGGTGCCTTGATGAACGAGTCTCAAGCTTCTTGCGATAAACTTTACGAATGTTCTTGTCCAGAGATTGACAAAATTTGTTCCATTGCTTTGTCAAATGGATCATATGGTTCCCGTTTGACCGGAGCTGGCTGGGGTGGTTGTACTGTTCACTTGGTTCCAGGGGGCCCAAATGGCAACATAGAAAAGGTAAAAGAAGCCCTTGCCAATGAGTTCTACAAGGTCAAGTACCCTAAGATCACTGATGCTGAGCTAGAAAATGCTATCATCGTCTCTAAACCAGCATTGGGCAGCTGTCTATATGAATTAGTCAAGTATACTTCTTTTTTTTACTTTGTTCAGAACAACTTCTCATTTTTTTCTACTCATAACTTTAGCATCACAAAATACGCAATAATAACGAGTAGTAACACTTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCACAAACTTTAAAACACAGGGACAAAATTCTTGATATGCTTTCAACCGCTGCGTTTTGGATACCTATTCTTGACATGATATGACTACCATTTTGTTATTGTACGTGGGGCAGTTGACGTCTTATCATATGTCAAAG...TTGCGAAGTTCTTGGCAAGTTGCCAACTGACGAGATGCAGTAACACTTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCACAAACTTTAAAACACAGGGACAAAATTCTTGATATGCTTTCAACCGCTGCGTTTTGGATACCTATTCTTGACATGATATGACTACCATTTTGTTATTGTACGTGGGGCAGTTGACGTCTTATCATATGTCAAAGTCATTTGCGAAGTTCTTGGCAAGTTGCCAACTGACGAGATGCAGTTTCCTACGCATAATAAGAATAGGAGGGAATATCAAGCCAGACAATCTATCATTACATTTAAGCGGCTCTTCAAAAAGATTGAACTCTCGCCAACTTATGGAATCTTCCAATGAGACCTTTGCGCCAAATAATGTGGATTTGGAAAAAGAGTATAAGTCATCTCAGAGTAATATAACTACCGAAGTTTATGAGGCATCGAGCTTTGAAGAAAAAGTAAGCTCAGAAAAACCTCAATACAGCTCATTCTGGAAGAAAATCTATTATGAATATGTGGTCGTTGACAAATCAATCTTGGGTGTTTCTATTCTGGATTCATTTATGTACAACCAGGACTTGAAGCCCGTCGAAAAAGAAAGGCGGGTTTGGTCCTGGTACAATTATTGTTACTTCTGGCTTGCTGAATGTTTCAATATCAACACTTGGCAAATTGCAGCTACAGGTCTACAACTGGGTCTAAATTGGTGGCAGTGTTGGATAACAATTTGGATTGGGTACGGTTTCGTTGGTGCTTTTGTTGTTTTGGCCTCTAGAGTTGGATCTGCTTATCATTTGTCATTCCCTATATCATCTAGAGCATCATTCGGTATTTTCTTCTCTTTATGGCCCGTTATTAACAGAGTCGTCATGGCCATCGTTTGGTATAGTGTCCAAGCTTATATTGCGGCAACTCCCGTATCATTAATGCTGAAATCTATCTTTGGAAAAGATTTACAATGATTGTACGTGGGGCAGTTGACGTCTTATCATATGTCAAAGTCATTTGCGAAGTTCTTGGCAAGTTGCCAACTGACGAGATGCAGTAACACTTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCACAAACTTTAAAACACAGGGACAAAATTCTTGATATGCTTTCAACCGCTGCGTTTTGGATACCTATTCTTGACATGATATGACTACCATTTTGTTATTGTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAAT

Page 20: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

TTATATTGAATTTTCAAAAATTCTTACTTTTTTTTTGGATGGACGCAAAGAAGTTTAATAATCATATTACATGGCATTACCACCATATACATATCCATATCTAATCTTACTTATATGTTGTGGAAATGTAAAGAGCCCCATTATCTTAGCCTAAAAAAACCTTCTCTTTGGAACTTTCAGTAATACGCTTAACTGCTCATTGCTATATTGAAGTACGGATTAGAAGCCGCCGAGCGGGCGACAGCCCTCCGACGGAAGACTCTCCTCCGTGCGTCCTCGTCTTCACCGGTCGCGTTCCTGAAACGCAGATGTGCCTCGCGCCGCACTGCTCCGAACAATAAAGATTCTACAATACTAGCTTTTATGGTTATGAAGAGGAAAAATTGGCAGTAACCTGGCCCCACAAACCTTCAAATTAACGAATCAAATTAACAACCATAGGATGATAATGCGATTAGTTTTTTAGCCTTATTTCTGGGGTAATTAATCAGCGAAGCGATGATTTTTGATCTATTAACAGATATATAAATGGAAAAGCTGCATAACCACTTTAACTAATACTTTCAACATTTTCAGTTTGTATTACTTCTTATTCAAATGTCATAAAAGTATCAACAAAAAATTGTTAATATACCTCTATACTTTAACGTCAAGGAGAAAAAACTATAATGACTAAATCTCATTCAGAAGAAGTGATTGTACCTGAGTTCAATTCTAGCGCAAAGGAATTACCAAGACCATTGGCCGAAAAGTGCCCGAGCATAATTAAGAAATTTATAAGCGCTTATGATGCTAAACCGGATTTTGTTGCTAGATCGCCTGGTAGAGTCAATCTAATTGGTGAACATATTGATTATTGTGACTTCTCGGTTTTACCTTTAGCTATTGATTTTGATATGCTTTGCGCCGTCAAAGTTTTGAACGATGAGATTTCAAGTCTTAAAGCTATATCAGAGGGCTAAGCATGTGTATTCTGAATCTTTAAGAGTCTTGAAGGCTGTGAAATTAATGACTACAGCGAGCTTTACTGCCGACGAAGACTTTTTCAAGCAATTTGGTGCCTTGATGAACGAGTCTCAAGCTTCTTGCGATAAACTTTACGAATGTTCTTGTCCAGAGATTGACAAAATTTGTTCCATTGCTTTGTCAAATGGATCATATGGTTCCCGTTTGACCGGAGCTGGCTGGGGTGGTTGTACTGTTCACTTGGTTCCAGGGGGCCCAAATGGCAACATAGAAAAGGTAAAAGAAGCCCTTGCCAATGAGTTCTACAAGGTCAAGTACCCTAAGATCACTGATGCTGAGCTAGAAAATGCTATCATCGTCTCTAAACCAGCATTGGGCAGCTGTCTATATGAATTAGTCAAGTATACTTCTTTTTTTTACTTTGTTCAGAACAACTTCTCATTTTTTTCTACTCATAACTTTAGCATCACAAAATACGCAATAATAACGAGTAGTAACACTTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCACAAACTTTAAAACACAGGGACAAAATTCTTGATATGCTTTCAACCGCTGCGTTTTGGATACCTATTCTTGACATGATATGACTACCATTTTGTTATTGTACGTGGGGCAGTTGACGTCTTATCATATGTCAAAG...TTGCGAAGTTCTTGGCAAGTTGCCAACTGACGAGATGCAGTAACACTTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCACAAACTTTAAAACACAGGGACAAAATTCTTGATATGCTTTCAACCGCTGCGTTTTGGATACCTATTCTTGACATGATATGACTACCATTTTGTTATTGTACGTGGGGCAGTTGACGTCTTATCATATGTCAAAGTCATTTGCGAAGTTCTTGGCAAGTTGCCAACTGACGAGATGCAGTTTCCTACGCATAATAAGAATAGGAGGGAATATCAAGCCAGACAATCTATCATTACATTTAAGCGGCTCTTCAAAAAGATTGAACTCTCGCCAACTTATGGAATCTTCCAATGAGACCTTTGCGCCAAATAATGTGGATTTGGAAAAAGAGTATAAGTCATCTCAGAGTAATATAACTACCGAAGTTTATGAGGCATCGAGCTTTGAAGAAAAAGTAAGCTCAGAAAAACCTCAATACAGCTCATTCTGGAAGAAAATCTATTATGAATATGTGGTCGTTGACAAATCAATCTTGGGTGTTTCTATTCTGGATTCATTTATGTACAACCAGGACTTGAAGCCCGTCGAAAAAGAAAGGCGGGTTTGGTCCTGGTACAATTATTGTTACTTCTGGCTTGCTGAATGTTTCAATATCAACACTTGGCAAATTGCAGCTACAGGTCTACAACTGGGTCTAAATTGGTGGCAGTGTTGGATAACAATTTGGATTGGGTACGGTTTCGTTGGTGCTTTTGTTGTTTTGGCCTCTAGAGTTGGATCTGCTTATCATTTGTCATTCCCTATATCATCTAGAGCATCATTCGGTATTTTCTTCTCTTTATGGCCCGTTATTAACAGAGTCGTCATGGCCATCGTTTGGTATAGTGTCCAAGCTTATATTGCGGCAACTCCCGTATCATTAATGCTGAAATCTATCTTTGGAAAAGATTTACAATGATTGTACGTGGGGCAGTTGACGTCTTATCATATGTCAAAGTCATTTGCGAAGTTCTTGGCAAGTTGCCAACTGACGAGATGCAGTAACACTTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCACAAACTTTAAAACACAGGGACAAAATTCTTGATATGCTTTCAACCGCTGCGTTTTGGATACCTATTCTTGACATGATATGACTACCATTTTGTTATTGTTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATAATGTTTTCAATGTAAGAGATTTCGATTATCTTATAGTTCATACATGCTTCAACTACTTAATAAATGATTGTATGATTT

Promoter motifs

3’ UTR motifs

Exons

Introns

Page 21: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Comparing genomes reveals functional elements

• Ultra-conserved elements

• Protein-coding genes

• Short regulatory motifs

Page 22: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

ATGACTAAATCTCATTCAGAAGAAGTGA

Regulatory Motif Discovery

GAL1

CCCCWCGG CCG

Gal4 Mig1

CGG CCG

Gal4

• Gene regulation Genes are turned on / off in response to changing environments Gene regulatory logic is controlled by sequence motifs Specialized proteins (transcription factors) recognize motifs

• What makes motif discovery hard? Motifs are short (6-8 bp) and usually degenerate Act at variable distances upstream (or downstream) of target gene

Page 23: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Overview of Motif Discovery Algorithms

Page 24: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Motif Representation

GTATAACTATAAGTCTTAATATACGTAATATTGTACGTATTAGTATTCATCTAA

GTATAACTATAAGTCTTAATATACGTAATATTGTACGTATTAGTATTCATCTAA

PSSMPSSM

GTATAAGTATAA

ConsensusConsensus

GTATAMGTATAM

IUPACIUPAC

Complex Dependency

Graphical Models

Complex Dependency

Graphical Models

GTATAAGTATAA

CTATAACTATAA

TTGTACTTGTACGTCTTAGTCTTA

GTAATAGTAATAATATACATATAC

GTATTAGTATTA

GTATTCGTATTC

ATCTAAATCTAA

Nonparametric –

Graph or Bag of Words

Nonparametric –

Graph or Bag of Words

Page 25: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Motif Representation – Pairwise Dependencies

Complex Dependency

Graphical Models

Complex Dependency

Graphical Models

Page 26: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

Motif Representation – MotifScan

GTATAAGTATAA

CTATAACTATAA

TTGTACTTGTACGTCTTAGTCTTA

GTAATAGTAATAATATACATATAC

GTATTAGTATTA

GTATTCGTATTC

ATCTAAATCTAA

Page 27: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 28: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 29: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 30: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 31: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 32: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 33: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 34: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 35: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 36: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 37: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 38: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 39: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 40: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 41: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 42: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 43: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 44: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 45: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 46: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 47: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 48: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 49: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 50: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity
Page 51: Building synteny maps Recommended local aligners BLASTZ Most accurate, especially for genes Chains local alignments WU-BLAST Good tradeoff of efficiency/sensitivity

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