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Status |
Public on Aug 19, 2015 |
Title |
Illumina HiSeq 2500 (Cucumis sativus) |
Technology type |
high-throughput sequencing |
Distribution |
virtual |
Organism |
Cucumis sativus |
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Submission date |
Aug 19, 2015 |
Last update date |
Aug 19, 2015 |
Contact name |
GEO |
Country |
USA |
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Samples (48)
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GSM1857237, GSM1857239, GSM2102058, GSM2102059, GSM2146955, GSM2146956
GSM2146957, GSM2146958, GSM2146959, GSM2146960, GSM2146961, GSM2146962, GSM2146963, GSM2146964, GSM2146965, GSM2146966, GSM2480906, GSM2480907, GSM2480908, GSM3048829, GSM3048830, GSM3048831, GSM3048832, GSM3048833, GSM3048834, GSM3048835, GSM3048836, GSM3048837, GSM3048838, GSM3048839, GSM3048840, GSM3076086, GSM3076087, GSM3076088, GSM3076089, GSM3076090, GSM3076091, GSM3223379, GSM3223380, GSM3223381, GSM3223382, GSM3223383, GSM3223384, GSM3223385, GSM3223386, GSM3223387, GSM3223388, GSM3223389
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Series (7)
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GSE72191 |
Next Generation Sequencing Facilitates Quantitative Analysis of Cucumber and Botrytis cinerea Transcriptome Changes During Infection |
GSE79757 |
High-throughput sequencing reveals change of microRNA expression caused by allopolyploidization in Cucumis |
GSE81234 |
Identification of candidate regulators of powdery mildew resistance in cucumber using comparative RNA-sequencing based transcriptome analysis |
GSE85516 |
Diversification of Root Hair Development Genes in Vascular Plants |
GSE111998 |
Transcriptome Analysis of Cucumber (Cucumis sativus L.) Leaves Under Chilling Stress |
GSE112666 |
Identification of candidate genes related to astringency in cucumber via RNA-seq based transcriptome profiling |
GSE116265 |
Transcriptomic dynamics provides an insight into the mechanism for silicon-mediated alleviation of salt stress in cucumber plants |
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Supplementary data files not provided |
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