NASCArrays Information at The BAR

Welcome to NASCArrays information at the BAR. This page hosts meta-information from the NASCArrays service (2002-2013). This information was parsed from text files available on the NASCArrays site. NASCArrays data is on iPlant server. To download experiment data from iPlant, please click on the experiment number. To download the CEL files, please click on the ftp link.

Experiment:562
Title:Long recovery after heat shock
Date:2012-05-09
Description:Abiotic stress is a major factor for crop productivity, a problem likely to be exacerbated by climate change. Improving the tolerance to environmental stress is one of the most important goals of crop breeding programmes. While the early responses to abiotic stress in plants are well studied, plant adaptation to enduring or recurring stress conditions has received little attention. This project investigates the molecular mechanism of the maintenance of acquired thermotolerance as a model case of stress memory in Arabidopsis. Arabidopsis seedlings acquire thermotolerance through a heat treatment at sublethal temperatures. To investigate the underlying mechanisms, we are investigating changes in the transcriptome at two timepoints after a heat acclimation treatment using Arabidopsis thaliana seedlings.
ftp Link:ftp Link

Slide Information:
Slide IDSlide NameGenetic BackgroundTissueStock CodeCel File
Baurle_562-10_bru1_contr_Rep1_ATH17780009Col-1whole plant Baurle_562-10_bru1_contr_Rep1_ATH1.CEL
Baurle_562-11_bru1_contr_Rep2_ATH17780010Col-1whole plant Baurle_562-11_bru1_contr_Rep2_ATH1.CEL
Baurle_562-12_bru1_contr_Rep3_ATH17780011Col-1whole plant Baurle_562-12_bru1_contr_Rep3_ATH1.CEL
Baurle_562-13_bru1_4h_Rep1_ATH17780012Col-1whole plant Baurle_562-13_bru1_4h_Rep1_ATH1.CEL
Baurle_562-14_bru1_4h_Rep2_ATH17780013Col-1whole plant Baurle_562-14_bru1_4h_Rep2_ATH1.CEL
Baurle_562-15_bru1_4h_Rep3_ATH17780014Col-1whole plant Baurle_562-15_bru1_4h_Rep3_ATH1.CEL
Baurle_562-16_bru1_52h_Rep1_ATH17780015Col-1whole plant Baurle_562-16_bru1_52h_Rep1_ATH1.CEL
Baurle_562-17_bru1_52h_Rep2_ATH17780016Col-1whole plant Baurle_562-17_bru1_52h_Rep2_ATH1.CEL
Baurle_562-18_bru1_52h_Rep3_ATH17780017Col-1whole plant Baurle_562-18_bru1_52h_Rep3_ATH1.CEL
Baurle_562-19_ago1_contr_Rep1_ATH17780018Col-1whole plant Baurle_562-19_ago1_contr_Rep1_ATH1.CEL
Baurle_562-1_Col_contr_Rep1_ATH17780000whole plant N933Baurle_562-1_Col_contr_Rep1_ATH1.CEL
Baurle_562-20_ago1_contr_Rep2_ATH17780019Col-1whole plant Baurle_562-20_ago1_contr_Rep2_ATH1.CEL
Baurle_562-21_ago1_contr_Rep3_ATH17780020Col-1whole plant Baurle_562-21_ago1_contr_Rep3_ATH1.CEL
Baurle_562-22_ago1_4h_Rep1_ATH17780021Col-1whole plant Baurle_562-22_ago1_4h_Rep1_ATH1.CEL
Baurle_562-23_ago1_4h_Rep2_ATH17780022Col-1whole plant Baurle_562-23_ago1_4h_Rep2_ATH1.CEL
Baurle_562-24_ago1_4h_Rep3_ATH17780023Col-1whole plant Baurle_562-24_ago1_4h_Rep3_ATH1.CEL
Baurle_562-25_ago1_52h_Rep1_ATH17780024Col-1whole plant Baurle_562-25_ago1_52h_Rep1_ATH1.CEL
Baurle_562-26_ago1_52h_Rep2_ATH17780025Col-1whole plant Baurle_562-26_ago1_52h_Rep2_ATH1.CEL
Baurle_562-27_ago1_52h_Rep3_ATH17780026Col-1whole plant Baurle_562-27_ago1_52h_Rep3_ATH1.CEL
Baurle_562-2_Col_contr_Rep2_ATH17780001whole plant N933Baurle_562-2_Col_contr_Rep2_ATH1.CEL
Baurle_562-3_Col_contr_Rep3_ATH17780002whole plant N933Baurle_562-3_Col_contr_Rep3_ATH1.CEL
Baurle_562-4_Col_4h_Rep1_ATH17780003whole plant N933Baurle_562-4_Col_4h_Rep1_ATH1.CEL
Baurle_562-5_Col_4h_Rep2_ATH17780004whole plant N933Baurle_562-5_Col_4h_Rep2_ATH1.CEL
Baurle_562-6_Col_4h_Rep3_ATH17780005whole plant N933Baurle_562-6_Col_4h_Rep3_ATH1.CEL
Baurle_562-7_Col_52h_Rep1_ATH17780006whole plant N933Baurle_562-7_Col_52h_Rep1_ATH1.CEL
Baurle_562-8_Col_52h_Rep2_ATH17780007whole plant N933Baurle_562-8_Col_52h_Rep2_ATH1.CEL
Baurle_562-9_Col_52h_Rep3_ATH17780008whole plant N933Baurle_562-9_Col_52h_Rep3_ATH1.CEL