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Platform GPL8569 Query DataSets for GPL8569
Status Public on Jun 01, 2010
Title Cotton cDNA array (28,178 features)
Technology type spotted DNA/cDNA
Distribution custom-commercial
Organism Gossypium hirsutum
Manufacturer CapitalBio Corporation, National Engineering Research Center for Beijing Biochip Technology, 18 Life Science Parkway, Beijing 102206, China
Manufacture protocol To establish upland cotton fiber-specific cDNA array, we constructed cDNA library from 5-10 day post anthesis cotton fibers when fiber cells elongate most quickly. Secondly, we randomly sequenced over 100,000 ESTs from this library and acquired a gene pool of more than 28,000 UniESTs. The cotton UniESTs were then PCR-amplified and printed onto microarray. This array is comprised of 28,178 high-quality cotton cDNAs (with average length = 768bp) representing over 24,000 cotton genes.
Individual bacterial clones were selected and distributed into 96-well plates. PCR amplification of DNA using primers specific to the plasmid vector sequences flanking the insert cDNA (T3 forward and T7 reverse primers) were performed in 96-well PCR plate in a Perkin-Elmer 9600 thermocycler in 50-μL reactions containing 1× PCR buffer (TaKaRa, Dalian, China), 2.0 mM MgCl2, 0.2mM dNTPs, 10 pmol of each primer, 5 units of Taq polymerase, and 10 ng plasmid template. The PCR cycle consisted of one round at 95℃ for 3 min, then 35 cycles including 95℃ for 1 min, 55℃ for 20s and 72℃ for 90s, with a final extension at 72℃ for 5 min. 1 μL of the PCR reactions was analyzed in a 1% agarose gel to verify the success of the amplification. The remaining PCR products were precipitated with addition of 100 μL of anhydrous ethanol and resuspended in 15 μL of 50% DMSO for arraying. As a result, 28,323 cDNA were amplified and printed on the cDNA microarrays.
cDNA labeled with a fluorescent dye (Cy5 and Cy3-dCTP) was produced by Eberwine's linear RNA amplification method and subsequent enzymatic reaction. Double-stranded (ds) cDNA containing T7 RNA polymerase promoter sequence was synthesized from 10 μg of total RNA using a cDNA synthesis kit following the manufacturer’s instructions (TaKaRa). A T7-OligodT primer (5’-AAACGACGGCCAGTGAATTGTAATACGACTCACTATAGGCGCTT TTTTTTTTTTTTTTTV -3’) was used to replace the poly T primer provided in the kit. Synthesized ds cDNA was purified using the PCR Purification kit (Qiagen) and purified products were eluted using 60-μL elution buffer. A half of the eluted ds cDNA was reduced to 8 μL before subjecting to in vitro transcription in 20 μL of reaction mixture using the T7 RiboMAX Express Large Scale RNA Production System (Promega) for 3 h at 37℃. Amplified RNA (aRNA) was purified using the RNeasy Mini kit (Qiagen). For labeling of the probes, 2 μg of aRNA was mixed with 2 μg of random hexamers, denatured at 70℃ for 5 min, cooled on ice before adding 4 μL of first strand synthesis buffer, 2 μL of 0.1M DTT, 1 μL 10 mM mixed dNTPs, and 1.5 μL SuperScript II (Invitrogen) to the system. The reaction mixture was first incubated at 25℃ for 10 min before transferring to 42℃ for 60 min. The labeled cDNA was purified using a PCR Purification kit (Qiagen), reduced to 10 μL volume and mixed with 2 μg of random nonamers, heated to 95°C for 3 min and cooled on ice immediately. 10×buffer, dNTP and Cy5- or Cy3-dCTP (Amersham Pharmacia Biotech) was added to a final concentration of 120 μM each for dATP, dGTP and dTTP, 60 μM for dCTP and 40 μM for Cy5 or Cy3 dyes respectively. One μL Klenow (Takara) was added to the mixture and the reaction progressed for 60 min at 37℃. The labeled cDNA was again purified with a PCR Purification kit (Qiagen), resuspended in elution buffer and quantitatively adjusted based on the efficiency of dye incorporation. Appropriate amount of the labeled cDNA was mixed in a final volume of 30 μL of hybridization solution that contains 50% formamide and 1×hybridization buffer (Amersham Bioscience), and was denatured at 95℃ for 3 min prior to loading onto a microarray. The array was hybridized at 42℃ overnight and was first washed for 5 min at 42°C with washing solutions that contain 0.2% SDS and 2×SSC followed by a second wash using washing solutions that contain 0.2% SSC for 5 min at room temperature.
 
 
Contributor(s) Jin X, Zhang L, Cheng J, Zhu Y
Submission date May 20, 2009
Last update date Aug 08, 2011
Contact name Yu-Xian Zhu
E-mail(s) zhuyx@water.pku.edu.cn
Phone 86-10-62751193
Fax 86-10-62754427
Organization name College of life sciences, Peking University
Lab National Lab of Protein Engineering & Plant Genetic Engineering
Street address 5# Summer Palace Road
City Beijing
ZIP/Postal code 100871
Country China
 
Samples (56) GSM419228, GSM419333, GSM419334, GSM419335, GSM419336, GSM419337 
Series (3)
GSE16802 cDNA expression profiles of +7 DPA wild-type upland cotton (Gossypium hirsutum cv. Xuzhou142) ovules over the one-year cycle
GSE49617 Comparative analysis of transcriptome profiles of G. hirsutum L. acc. TM-1 and its immature fber mutant during fiber secondary cell wall development stages
GSE59208 Comparative analysis of transcriptome profiles of a lintless-fuzzless mutant XinWX and its near-isogenic line linted-fuzzless mutant XinFLM during fiber initiation development stages

Data table header descriptions
ID
Block Print tip ID
Row Row within block
Column Column within block
Probe_ID ID of cDNA probes
Spot ID of array spots
EST_ID ID of each EST probes
GB_ACC GenBank accession number of each probe
Gene_Info Information about the gene represented by the sequence in the spot
SEQUENCE EST sequence of each probe
SPOT_ID Spot identifier

Data table
ID Block Row Column Probe_ID Spot EST_ID GB_ACC Gene_Info SEQUENCE SPOT_ID
1 1 1 1 NC Negtive Control control
2 1 1 2 NC Negtive Control control
3 1 1 3 NC Negtive Control control
4 1 1 4 NC Negtive Control control
5 1 1 5 NC Negtive Control control
6 1 1 6 HEX immobilized control control
7 1 1 7 50%DMSO spot solution,50%DMSO control
8 1 1 8 Y1 Positive Control Yeast intergenic sequence 1, spike RNA control
9 1 1 9 Y2 Positive Control Yeast intergenic sequence 2, spike RNA control
10 1 1 10 Y3 Positive Control Yeast intergenic sequence 3, spike RNA control
11 1 1 11 Y4 Positive Control Yeast intergenic sequence 4, spike RNA control
12 1 1 12 Y5 Positive Control Yeast intergenic sequence 5, spike RNA control
13 1 1 13 Y6 Positive Control Yeast intergenic sequence 6, spike RNA control
14 1 1 14 Y7 Positive Control Yeast intergenic sequence 7, spike RNA control
15 1 1 15 Y8 Positive Control Yeast intergenic sequence 8, spike RNA control
16 1 1 16 28k_001_B06 384P01_A_12 UFL_002_77.T3 ES834857 ATMPK4 (MAP KINASE 4); MAP kinase/ kinase[Arabidopsis thaliana] AATTGGAGACTTTGGGCTTGCAAGGACAATATCTGAAACTGATTTGACAGAATATGTTGTTACTCGTTGGTACCGGGCACCGGAATTGCTTCTGAATTGTTCTGAATACACCGCTGCAATTGATATTTGGTCGGTGGGCTGCATGCTTGGCGAAATCATGAGTAGACAACCCCTCTTCCCTGGCAAAGACTACGTGCATCAGTTGAGGCTTATCACAGAGCTTATAGGTTCTCCTGATGATTCCAGCCTTGGGTTCCTTGGAAGTGACAATGCACGAAGATATGTTAGACAGCTTCCACAATACCCAAGGCAAAATTTCTCTTCTAGATTTCCTAACATGTCACCTGGTGCCATTGATCTGCTAGAAAAGATGCTCATCTTTGATCCCCATAGGCGCATTACAGTGGATGAGGCTCTATGCCACCCTTACTTGGCACCACTTCATGATATCAATGAGGAGCCAGTTTGCCCAATGCCTTTCAGTTTTGATTTCGAGCAACCATCTTTTACTGAAGAAAACATCAAGGAGCTAATTTATAGGGAATCGGTAAAATTCAATCCAGACCCAATGTATTAAGGCTTATATGTATTGTATTTGTATATGACTCTGCAAGTGTGTGCCTAGCGGCATTACCATTTGTGACCCATCATTCCCCTTTGTGATTAGAAACATTAAGAATAGAATACTCTTAAACTGANAAAAAAAAAAAAAAAAA
17 1 1 17 28k_001_B12 384P01_A_24 UFL_003_09.T3 ES834882 CHR5 (chromatin remodeling 5); ATP binding / DNA binding / chromatin binding / helicase[Arabidopsis thaliana] GATGGAGGTGTTGGACCTTCCCATATGAACGGTTCCACACCTGGCCATGTTGATAGAGACGGTGATCCTAATTTCTTCCCTCCTTTTTCACGTTCTACCGATAAGCAACGAGGGTATAAGAAGAATGCAACGGCACATCAAACATCACAACCGATTCATAAAGGCATCGATACCGCAAAGTTTGAAGCTTGGAAACGATGGAGAGCAGAAACGGTTAACCATCCTCAACTTCAACCCCCAACTCAAAGACCTCTGAACAATGGTAGTACTCGTGTAGTAGACCCAAACTCATTGGGGATTCTTGGGGCAGGACCATCTGATAAACGTCTTGTTAATACCGAACGGCCATTTCGGATGCGTCAAACTGGATTTCCACAAAGGCAAGGTTTTCCCTCAGGCATCAAGTAAAAGCTTTTAAGCACTGTGCTGGATGATAGTCGATAGAAAATGAAATACGCCGATTTGCTTCGACCATGTGGCATTGACTGCTTCAGCCATTGAATACTTTCAGCGATTCTTTTTTCACCATGGGAATAAAAATCTGCTATCCGAATCTTTATGGCTGGATCGGACAAGTTATCCACCAGATGGGAGTTGCATCGATGTAAAAAGACGGCTCATGAAGAACACAAAAGATCGACTAACATGAGCAGACAGGGAATTGCAGTGACCTCGCAACCATTTTTTTCTCCGACCTTTTTTGTTTTCCGAAGTAAGTCAAAGTATTTTGTTTACGTATATAGCACAGGAATAGCAGGGAAAAAAAAAACAGAAATGTCGATTCATTTTCGAAAATACATGCATGAGATGTGTTTTACCAAAAAAAAAAAAAAAAACTCGAGCTGATCTTGGATGTTAAAAGTGGACATGGCGGCACTAGAAATAGGAGGAAGGCCTGGGTTTAACCCTGGAAAGGCAAAACTACAACC
18 1 1 18 28k_002_B06 384P01_E_12 UFL_007_62.T3 ES835306 AGD4 (ARF-GAP DOMAIN 4); ARF GTPase activator/ protein binding / zinc ion binding[Arabidopsis thaliana] GGCACGAGTGGGAACCTTCAATTGTGGAATTATTTTGTACCCTGGGAAATGCTTATTGTAACTCTATATGGGAAGGTTCACTCCTTAAGAATGAGAGAGTGGATGAATCAAATGCTATTAACACATCAGTAACAAAACCATGTCCCAAAGATGCAATTTGCGATAAAGAGAAATATATTAATGCTAAGTATGTAAACAAACTGCTGGTCAGCAGAGATCCAATGCAACTTGGAGTGTCTCAAAACTCGATAAACATCTGGCAAGCAGTTAAGGCTGATAATATACGAGAAGTATATCGTCTCATTACAGTGTCAGACACCAATATGGTAAATACCACCTTTGATGATGTTTTCAGCGTTGAGTGGTATCACCATGTTGATGCTCAAAACTCGTCAATTGATATCCAAAATGAGCACTTGATACAGAATGATCCATCAGCCTGTCAGAGAATCAAGAATTCAAATGACCCGGGGAGTTGTCTACAAGGTTGTTCACTGTTGCATCTGGCTTGCCAACGTAGCAACCCTGTAATGGTTGAGTTGTTGCTGCAGTTTGGTGCCGATATAAATATGCGCGATTACCATGGCAGGACTCCTTTGCACCATTGCATTGCTATAGGCAAGAACCCGTTGGCAAAGCATCTACTAAAAAGAGGTGCACGGTCTTCAATTAGGGATGGTGGGGGATTTAGTGCATTAGATAGGGCTATGGAGAAGGGAGCAATTACAGATGAGGGGCTACTTATTTTGCTCAGTGAAAGCGATTGAAGAAAACTCGGTTTCCTCTTATTTGTAAGCTTGCTTTTTTTTTCATGATTTCCACTTATGTCGGCAGTTGTTGCCTATTTGCCTAATAAGAGTCTGCTATTATCTTCTAAGTTGTCAACATTTCGAAATGTTTCTCCTCTATANTTAAAAAGAAGAATCCCATGACTGGGTGAGTGTTGGAAAACTTCAAAAAAAAAAAAAAAAA
19 1 1 19 28k_002_B12 384P01_E_24 UFL_007_83.T3 ES835326 No Hits TTCGGCACGAGGGATGATTTATTTTTTTCCTTTAGGTATGTTGACTGGCAGTCGGTTCAAATGTTATTAACCACAATCCAATTGATGACCGAACTGATTCATGTGATACTGGTCCTGGGCTAGCTCATATTGTCTGATATATTCACAATGATGATCGAAGGTTATGATGGTTGCCTTCTTAGTTAAACAATATCCTGTCAGCCTTTGACCATCCCGCGCATGTATTTATGAAAAGAACATATCCATATCCAGTGTTTTGACTTGCATAGGTAATTCCCTGATGAAATCATAATGTCATTTCTTTACCGTCCACTCTGCTGTCGAGTTTTCACACGGTGGATATACCAGGTCAGGGGACCCCACTCATCATATACAGAGTCATATGACATGTTAACAGGGAGATTTTCTTCACCGTGAGATCTGTGAATACCCTACCGCTGCCCTCCTTAACCACGTTGAGCGATACTTCCCTTTCTGCTTATGGAATACAAATTAAAAGGCTAGCACAGGAGCTTGATCACAACCTTGGTCCGACCTGTTTGACTCACGGCGAGCCCCTTATTAAGAGTCCGATGCGTAGAACTGGTGATTCTAATGGATTGGGTCTTTCATATGAAATCTTCCCACCTTCCTTGCAGGGCCCCTAATTATTTAGGACATGTTTTTGTTTATTTTTTATCCGTCCAACGTTTTTTGATTTTGTTATTTGTTTCAAATAACCTACCCCCCCCCCTCCTTAAATCCTACAAAAATAAGATTAAGGCAATTGTTTTTTTTGTATTTTTTTATCATGGCAGGTTACTTATTTTTACCCTATAGAAAAAATTCAAAACCTCCAACTTCCAAACTTATAACCCTTTTTTTTTCACATGCCAATCCCCCTTGCCCTTATTGTACCCTCGTCTTTTAAAGGTAAACTAAAACACAAAA
20 1 1 20 28k_003_B06 384P01_I_12 UFL_012_47.T3 ES835750 similar to unknown protein (TAIR:AT4G14290.1); similar to unnamed protein product [Vitis vinifera] (GB:CAO23689.1); contains domain PTHR12277:SF9 (PTHR12277:SF9); contains domain PTHR12277 (PTHR12277); contains domain SSF53474 (SSF53474); contains domain G3DSA:3.40.50.1820 (G3DSA:3.40.50.1820) GGCACGAGGAGACGTGTAATTCAGAAGAAGGCGAAGTTTGACATTATGGATCTAAACTGTCTGAAGGTAGCACCTAAAACATTCATTCCAGCTCTATTTGGACATGCCAGTGAGGACAAATTTATTCAACCTCATCACTCTGACCTCATATTTAAATCATATGCGGGAGATAAAAACGTTATAAAATTTGATGGTGATCACAACTCCTCCAGGCCACAGTTTTATTATGATTCAGTCTCCATTTTCTTCTTCAACGTGCTTCGTCCTCCTCAAATTTCTTCTGCTTGTTCAAGTAAGCTTGAGAAATACTATGATCTTGGTGATTTGAAAGTCGGTGCTGGCATGGATGAGAGCCTGTTGTATGAAATAATCACTGGCATTGAAACTGAATCAACCAATGTTCCAAGTTCATCTTCTGCTGCACCTAGAGTTTTGATGACTAAGCCAGTTAGTGAACTCGTCTCAGAAGTTGCACCTTTTGCTAGATTGGTAGTATTCCATTTCACTTTGTTTTTGGTATTTGTTTGCTTGTTAATCTAAAACTAAGTATATTTTTAAATTTTGTTATTTCTTATAAATGCAGGATCCCATGCTTAGTAGAAATATTAGACCTGACGGTGATGAGCATTCAATTTACAGGGATAGCCTAATGGCCAAAGTGATGAATGGTGCTCATATACAAGCTCAAACAGGGAAAGTGGGGAAGAAGCTCTTCACTGGGGGGCAGGGAATAAAAAATCTTCAGCAGACTGTACCGCTGCTAATAACGGAAATCAGGTGACTCTTTGATGGGCTTGCAAACCTCTGAAAAACCCCCACAAAAAACAATGATCCCCCCAAAAGGAAAAAAAAAACAAAAAAAGCCAAAAAACCAAAAAAAAAGATTCCACACCCCCAAAGCAAAAAATGAAAAA

Total number of rows: 30000

Table truncated, full table size 25082 Kbytes.




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