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From just £19 one way!!!!. High throughput genotyping. The first step. Published online: 5 May 2003, doi:10.1038/nbt821 Nature Biotechnology: June 2003 Volume 21 Number 6 pp 673 - 678.
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High throughput genotyping The first step
Published online: 5 May 2003, doi:10.1038/nbt821Nature Biotechnology: June 2003 Volume 21 Number 6 pp 673 - 678 Multiplexed genotyping with sequence-tagged molecular inversion probesPaul Hardenbol1, 3, Johan Banér2, Maneesh Jain1, 3, Mats Nilsson2, Eugeni A Namsaraev1, 3, George A Karlin-Neumann1, 3, Hossein Fakhrai-Rad1, 3, Mostafa Ronaghi1, Thomas D Willis1, 3, Ulf Landegren2 & Ronald W Davis11. Stanford Genome Technology Center, Stanford University, 855 California Avenue, Palo Alto, California 94304, USA.2. The Beijer Laboratory, Department of Genetics and Pathology, Rudbeck Laboratory, Se-751 85 Uppsala, Sweden.3. Present address: ParAllele BioScience 384 Oyster Point Blvd Suite 8, S. San Francisco, California 94080, USA.
Parallel gene analysis with allele-specific padlock probes and tag microarrays Johan Banér, Anders Isaksson, Erik Waldenström1, Jonas Jarvius, Ulf Landegren* and Mats Nilsson The Beijer Laboratory, Department of Genetics and Pathology, Rudbeck Laboratory, SE-751 85 Uppsala, Sweden and Department of Medical Sciences, Uppsala University Hospital, SE-751 85 Uppsala, Sweden
A PCR Marker for Growth Habit in Common Wheat Based on Allelic Variation at the VRN-A1 Gene J. D. Sherman, L. Yan, L. Talbert and J. Dubcovsky Fig. 2. Consensus sequences for winter and spring genotypes of the region amplified by VRN-A1-specific primers (indicated in bold-italic letters at the beginning and end of the sequence). Dots in the sequence from the spring varieties indicate identical bases with the sequences from the winter varieties. The three differences found between the ‘s’ and ‘w’ haplotypes are indicated by bold letters. AciI restriction sites are underlined. The location of the allele specific primer 361W-F is indicated in underlined italic letters.
Line Array S/W Sequence Scorpion S Cadenza S Rialto W Xi19 S Chinese Spring S Mercia W Malacca W? Synthetic S Hobbit W Cap Desprez W Thatcher S Paragon S Note Red: Spring allele (C), Green: Winter allele (T)
Rht 2: AGAAGCTGGAGCAGCTCGAGATGGCCATGGGGATGGGCGGCGTGGGCGCCGGCGCCGCCCCCGACGAC Mercia D: AGAAGCTGGAGCAGCTCGAGATGCCCATGGGGATGGCCGGCGTGGGCGCCGGCGCCGCCCCCGACGAC Mercia D isog: AGAAGCTGGAGCAGCTCGAGATGGCCATGGGGATGGGCGGCGTGGGCGCCGGCGCCGCCCCCGACGAC Malacca D AGAAGCTGTAGCAGCTCGAGATGGCCATGGGGATGGGCGGCGTGGGCGCCGGCGCCGCCCCCGACAGC Wizard D AGAAGCTGTAGCAGCTCGAGATGGCCATGGGGATGGGCGGCGTGGGCGCCGGCGCCGCCCCCGACAGC Rht 1 * Mercia B: AGAAGCTGGAGCAGCTGGAGATGGCCATGGGGATGGCCGGCGTGGGCGCCGGCGCCGCGCCCGACGAC Mercia B isog: AGAAGCTGGAGTAGCTGGAGATGCCCATGGGGATGGTCGGCGTGGGCGCCGGCGCCGCGCCCGACGAC Stephen allele: AGAAGCTGGAGTAGCTGGAGATGGCCATGGGGATGGGCGGCGTT
Line Array Scorpion Rht 2 Rht 1 Cadenza Rht 2 Rht 1 Rialto Rht 2 Rht 1 Xi19 Rht 2 Rht 1 Chinese Spring Rht 2 Rht 1 Rht2: Green is wild type Rht1: Red is wild type
VrnA1 Pind-g Pinb-d Gliadin + con Pinb-f Pind-c -con Dy - con Pinb-b Rht2 Dy Pinb-e –con Rht1 Mercia Scorpion Cadenza Rialto X119 Andrew Rht1: Red is wild Rht2: Green is wild VrnA: Green is winter Pinb: red is Pinb-D1a
We are currently testing a 140 loci MIPs chip consisting of : Various HMW and LMW Glutenins, Pinb-Da-g, Rht 1 and 2, 2x vrn-A1, vrn-B1, various genes involved in starch syntheses, various disease resistance genes and a whole collection of random SNPs identified at Bristol and from various laboratories throughout the wheat community. Dilution experiments suggest that there should be no reduction in signal at less than 5,000 multiplex. Single tube assays up to 10,000 could be acheivable! If we had the SNPs If you any SNPs that you wish to include please do let us have them ASAP!!
Acknowledgements University of Bristol: Alex Reid Helen O’Sullivan Gary Barker Jane Coghill Advanta: Simon Berry And the various members of the wheat community for sharing their SNPs