Parallel tagged sequencing on the 454 platform

[1]  Matthias Meyer,et al.  From micrograms to picograms: quantitative PCR reduces the material demands of high-throughput sequencing , 2007, Nucleic acids research.

[2]  M. Ronaghi,et al.  A pyrosequencing-tailored nucleotide barcode design unveils opportunities for large-scale sample multiplexing , 2007, Nucleic acids research.

[3]  C. Hutchison DNA sequencing: bench to bedside and beyond , 2007, Nucleic acids research.

[4]  U. Stenzel,et al.  Targeted high-throughput sequencing of tagged nucleic acid samples , 2007, Nucleic acids research.

[5]  Susan M. Huse,et al.  Accuracy and quality of massively parallel DNA pyrosequencing , 2007, Genome Biology.

[6]  F. Bushman,et al.  DNA bar coding and pyrosequencing to identify rare HIV drug resistance mutations , 2007, Nucleic acids research.

[7]  Jonathan P. Bollback,et al.  The Use of Coded PCR Primers Enables High-Throughput Sequencing of Multiple Homolog Amplification Products by 454 Parallel Sequencing , 2007, PloS one.

[8]  L. Du,et al.  Unique Features of a Highly Pathogenic Campylobacter jejuni Strain , 2007, Infection and Immunity.

[9]  D. Bentley,et al.  Whole-genome re-sequencing. , 2006, Current opinion in genetics & development.

[10]  Andreas Graner,et al.  454 sequencing put to the test using the complex genome of barley , 2006, BMC Genomics.

[11]  Jeppe Emmersen,et al.  DeepSAGE—digital transcriptomics with high sensitivity, simple experimental protocol and multiplexing of samples , 2006, Nucleic acids research.

[12]  J. Rothberg,et al.  Erratum: Sensitive mutation detection in heterogeneous cancer specimens by massively parallel picoliter reactor sequencing , 2006, Nature Medicine.

[13]  F. Chen,et al.  Robust analysis of 5 0 -transcript ends (5 0 -RATE): a novel technique for transcriptome analysis and genome annotation , 2006 .

[14]  Amit Dhingra,et al.  Rapid and accurate pyrosequencing of angiosperm plastid genomes , 2006, BMC Plant Biology.

[15]  Thomas LaFramboise,et al.  Sensitive mutation detection in heterogeneous cancer specimens by massively parallel picoliter reactor sequencing , 2006, Nature Medicine.

[16]  Alexander F. Auch,et al.  Metagenomics to Paleogenomics: Large-Scale Sequencing of Mammoth DNA , 2006, Science.

[17]  Agostinho Antunes,et al.  The Late Miocene Radiation of Modern Felidae: A Genetic Assessment , 2006, Science.

[18]  James A. Cuff,et al.  Genome sequence, comparative analysis and haplotype structure of the domestic dog , 2005, Nature.

[19]  James R. Knight,et al.  Genome sequencing in microfabricated high-density picolitre reactors , 2005, Nature.

[20]  E. Willerslev,et al.  Review Paper. Ancient DNA , 2005, Proceedings of the Royal Society B: Biological Sciences.

[21]  S. Pääbo,et al.  Genetic analyses from ancient DNA. , 2004, Annual review of genetics.

[22]  N. Georgiadis,et al.  Genetic Evidence for Two Species of Elephant in Africa , 2001, Science.

[23]  Dan S. Tawfik,et al.  Man-made cell-like compartments for molecular evolution , 1998, Nature Biotechnology.

[24]  R. Haugland,et al.  Characterization of PicoGreen reagent and development of a fluorescence-based solution assay for double-stranded DNA quantitation. , 1997, Analytical biochemistry.

[25]  José Costa,et al.  PicoGreen quantitation of DNA: effective evaluation of samples pre- or post-PCR , 1996, Nucleic Acids Res..

[26]  M. Simcox,et al.  SrfI, a new type-II restriction endonuclease that recognizes the octanucleotide sequence, 5′-GCCC↓GGGC-3′ CGGG↑CCCG , 1991 .

[27]  F. Sanger,et al.  DNA sequencing with chain-terminating inhibitors. , 1977, Proceedings of the National Academy of Sciences of the United States of America.

[28]  D. G. Wang,et al.  Solid-phase reversible immobilization for the isolation of PCR products. , 1995, Nucleic acids research.

[29]  M. Simcox,et al.  SrfI, a new type-II restriction endonuclease that recognizes the octanucleotide sequence, [sequence: see text]. , 1991, Gene.