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Sample GSM920809 Query DataSets for GSM920809
Status Public on Dec 31, 2012
Title Chip-17 RD Wk9 R3blue & RD Wk6 R3red
Sample type RNA
 
Channel 1
Source name Paradormant crown buds exposed to ramp down in temperature under constant photoperiod for 9 weeks
Organism Euphorbia esula
Characteristics species: Leafy spurge
tissue: crown buds
treatment: exposed to ramp down in temperature under constant photoperiod for 9 weeks
time: 9 weeks
Biomaterial provider Munevver Dogramaci
Treatment protocol We previously established conditions for induction and release of dormancy phases under controlled environments (Doğramacı et al. 2010, 2011; Foley et al. 2009). To induce endodormancy, paradormant plants were subjected to a ramp-down in temperature (27°C → 10°C) and photoperiod (16 h → 8 h light), i.e., RDtp, for 12 weeks. In this study, to distinguish the individual effects of temperature and photoperiod on molecular networks involved in endodormancy induction, we compared three-month old paradormant plants subjected to a ramp-down in temperature (27°C → 10°C) under constant photoperiod (16 h light) for 12 weeks (i.e., RDt) to RDtp plants. At the end of each treatment, crown bud samples were collected between 1100 and 1300 Central Standard times to avoid diurnal variation. Samples were collected after 3, 6, 9, 12 week during RDt treatment. Additionally, a set of paradormant plants were kept under constant temperature and light (27°C, 16 h light) as a control (Para-0 week); we also maintained a set of paradormant plants, as a second control, in the greenhouse and collected samples at the end of 12 weeks of RDt treatment (Para-12 week).
This sample represents crown buds collected at the end of 9-week time point during the RDt treatment.
Growth protocol A population of leafy spurge plants were propagated through random cuttings from the genetically uniform biotype 1984-ND001 and maintained in a greenhouse as described by Anderson and Davis (2004). Shoot cuttings were grown in No. 1 Ray Leach Cone-tainers (Stuewe and Sons Inc. Corvallis, OR, USA) in the greenhouse for three months prior to application of experimental treatments. The greenhouse was set at 25°C with a 16 h:8 h day:night photoperiod. Average daily light fluencies were approximately 350 μmol m-2 s-1 and 400 W high-pressure sodium lamps were used as to extend the day-length. Each treatment was replicated four times, and thirty plants were used per biological replication. Prior to the start of each experiment, plants were randomly chosen from the greenhouse and acclimated in a growth chamber (PGR15 Model of Conviron, Winnipeg, Canada) for one week at 27°C, 16 h:8 h day:night photoperiod. At the end of each treatment, crown bud samples were collected between 1100 and 1300 Central Standard times to avoid diurnal variation.
Extracted molecule total RNA
Extraction protocol At the end of each treatment, crown bud samples were collected, flash froze in liquid N2, and stored at -80°C until RNA extraction. Crown bud samples were ground to a fine powder in liquid N2, and RNA was extracted from approximately one gram of tissue according to the pine tree RNA extraction protocol (Chang et al. 1993). RNA quality and quantity was confirmed by spectrophotometry and agarose gel electrophoresis.
Label CY5
Label protocol For microarray hybridizations, labeled cDNAs were prepared from 30 µg of total RNA using the Alexa Fluor cDNA labeling kit (Invitrogen, Carlsbad, CA, USA) according to manufacturer's protocols. Labeled cDNAs were hybridized to a custom made 23K element microarray that contained 19,808 unigenes from a leafy spurge EST database (Anderson et al. 2007) and an additional 4,129 unigenes from a cassava EST database (Lokko et al. 2007). Comparison of gene expression between samples was accomplished using a rolling circle dye swap hybridization scheme (Churchill 2002) to provide every biological replicate with technical replicates. In this experiment, each of the four biological replicates included two technical replicates.
 
Channel 2
Source name Paradormant crown buds exposed to ramp down in temperature under constant photoperiod for 6 weeks
Organism Euphorbia esula
Characteristics species: Leafy spurge
tissue: crown buds
treatment: exposed to ramp down in temperature under constant photoperiod for 6 weeks
time: 6 weeks
Biomaterial provider Munevver Dogramaci
Treatment protocol We previously established conditions for induction and release of dormancy phases under controlled environments (Doğramacı et al. 2010, 2011; Foley et al. 2009). To induce endodormancy, paradormant plants were subjected to a ramp-down in temperature (27°C → 10°C) and photoperiod (16 h → 8 h light), i.e., RDtp, for 12 weeks. In this study, to distinguish the individual effects of temperature and photoperiod on molecular networks involved in endodormancy induction, we compared three-month old paradormant plants subjected to a ramp-down in temperature (27°C → 10°C) under constant photoperiod (16 h light) for 12 weeks (i.e., RDt) to RDtp plants. At the end of each treatment, crown bud samples were collected between 1100 and 1300 Central Standard times to avoid diurnal variation. Samples were collected after 3, 6, 9, 12 week during RDt treatment. Additionally, a set of paradormant plants were kept under constant temperature and light (27°C, 16 h light) as a control (Para-0 week); we also maintained a set of paradormant plants, as a second control, in the greenhouse and collected samples at the end of 12 weeks of RDt treatment (Para-12 week).
This sample represents crown buds collected at the end of 6-week time point during the RDt treatment.
Growth protocol A population of leafy spurge plants were propagated through random cuttings from the genetically uniform biotype 1984-ND001 and maintained in a greenhouse as described by Anderson and Davis (2004). Shoot cuttings were grown in No. 1 Ray Leach Cone-tainers (Stuewe and Sons Inc. Corvallis, OR, USA) in the greenhouse for three months prior to application of experimental treatments. The greenhouse was set at 25°C with a 16 h:8 h day:night photoperiod. Average daily light fluencies were approximately 350 μmol m-2 s-1 and 400 W high-pressure sodium lamps were used as to extend the day-length. Each treatment was replicated four times, and thirty plants were used per biological replication. Prior to the start of each experiment, plants were randomly chosen from the greenhouse and acclimated in a growth chamber (PGR15 Model of Conviron, Winnipeg, Canada) for one week at 27°C, 16 h:8 h day:night photoperiod. At the end of each treatment, crown bud samples were collected between 1100 and 1300 Central Standard times to avoid diurnal variation.
Extracted molecule total RNA
Extraction protocol At the end of each treatment, crown bud samples were collected, flash froze in liquid N2, and stored at -80°C until RNA extraction. Crown bud samples were ground to a fine powder in liquid N2, and RNA was extracted from approximately one gram of tissue according to the pine tree RNA extraction protocol (Chang et al. 1993). RNA quality and quantity was confirmed by spectrophotometry and agarose gel electrophoresis.
Label CY3
Label protocol For microarray hybridizations, labeled cDNAs were prepared from 30 µg of total RNA using the Alexa Fluor cDNA labeling kit (Invitrogen, Carlsbad, CA, USA) according to manufacturer's protocols. Labeled cDNAs were hybridized to a custom made 23K element microarray that contained 19,808 unigenes from a leafy spurge EST database (Anderson et al. 2007) and an additional 4,129 unigenes from a cassava EST database (Lokko et al. 2007). Comparison of gene expression between samples was accomplished using a rolling circle dye swap hybridization scheme (Churchill 2002) to provide every biological replicate with technical replicates. In this experiment, each of the four biological replicates included two technical replicates.
 
 
Hybridization protocol For microarray hybridizations, labeled cDNAs were prepared from 30 µg of total RNA using the Alexa Fluor cDNA labeling kit (Invitrogen, Carlsbad, CA, USA) according to manufacturer's protocols. Labeled cDNAs were hybridized to a custom made 23K element microarray that contained 19,808 unigenes from a leafy spurge EST database (Anderson et al. 2007) and an additional 4,129 unigenes from a cassava EST database (Lokko et al. 2007). Comparison of gene expression between samples was accomplished using a rolling circle dye swap hybridization scheme (Churchill 2002) to provide every biological replicate with technical replicates.
Scan protocol Microarray hybridization was visualized using a GenePix 4000B scanner and probe intensities and background were quantified using GenePix 6.0 software (Molecular Devices, Sunnyvale, California, USA).
Data processing A quality control value of "1" was assigned to all probes that had intensity values greater than 2 times the standard deviation over average of the negative control and empty probe intensities (after deleting 1% of the most intense negative/empty probe values). Intensity values of control spots (a total of 1455 spots including 3X SSC, blanks, and mouse) from MA chips were removed before bioinformatics. In this submission, the original "GPR" files include information for the control spots, while the Sample data tables include information only for the spots that were used for data analyses (a total of: 23937). Raw signal intensities of all DNA-containing spots were up-loaded into the GeneMaths XT 5.1 microarray data analysis program (Applied Maths Inc., Austin, TX, USA) for normalization following the "Layer/Normalization/Arrays" path with default settings (Offset: Average; Scaling: Standard deviation), and for statistical analysis and clustering of the dataset. Hybridization intensities were log2 transformed, and arrays were centered and normalized against each other; technical replicates within each biological replicate were averaged.
 
Submission date Apr 22, 2012
Last update date Dec 31, 2012
Contact name Munevver Dogramaci
E-mail(s) Munevver.Dogramaci@ars.usda.gov
Phone 701-2391292
Organization name USDA-ARS
Street address 1605 Albrecht Blvd N
City Fargo
State/province ND
ZIP/Postal code 58102
Country USA
 
Platform ID GPL4655
Series (1)
GSE37477 Manipulation of Temperature and Photoperiod Identifies Molecular Networks Associated with the Para- to Endo-dormant Transition in Leafy Spurge Crown Buds

Data table header descriptions
ID_REF
VALUE Log2 normalized ratio of channel 1 over channel 2
CH1_SIG_MED Raw signal intensity of Chip 17 RD_Wk9_Rep3_blue
CH1_BKG_MED Raw background signal intensity of Chip 17 RD_Wk9_Rep3_blue
CH2_SIG_MED Raw signal intensity of Chip 17 RD_Wk6_Rep3_red
CH2_BKG_MED Raw background signal intensity of Chip 17 RD_Wk6_Rep3_red

Data table
ID_REF VALUE CH1_SIG_MED CH1_BKG_MED CH2_SIG_MED CH2_BKG_MED
1 -0.283722 1052 37 1368 83
2 -0.430639 1112 37 1670 83
3 -0.497473 735 37 1194 81
4 -0.376439 1245 37 1766 81
5 -0.223937 1125 37 1376 81
6 -0.204052 605 37 739 81
7 -0.250789 1088 38 1368 80
8 -0.287843 369 38 497 80
9 -0.674734 15629 38 27645 79
10 -0.259402 2150 39 2672 80
11 -0.113282 1728 39 1870 81
12 -0.126891 2869 40 3100 78
13 -0.310738 2612 39 3396 76
14 -0.247545 503 39 645 76
15 -0.311636 3160 39 4089 75
16 -0.026427 527 39 542 75
17 -0.06731 1980 39 2039 75
18 -0.134514 1973 42 2172 76
19 0.110599 1156 46 1014 80
20 0.041173 3833 43 3476 80

Total number of rows: 23937

Table truncated, full table size 695 Kbytes.




Supplementary file Size Download File type/resource
GSM920809_Spurge_Light_Temp_17_2010_07_19.gpr.gz 2.4 Mb (ftp)(http) GPR
Processed data included within Sample table

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