|
| Status |
Public on Feb 13, 2008 |
| Title |
Solanum2_ctrl_vs_drought_7_2 |
| Sample type |
RNA |
| |
|
| Channel 1 |
| Source name |
STP00012
|
| Organism |
Solanum tuberosum |
| Characteristics |
Solanum tuberosum, Leaves, Abiotic stress
|
| Treatment protocol |
To induce water stress,Solanum wild plants were randomly sorted in 2 groups. A group was submitted to non-irrigated conditions (withholding water) and the other was normally watered. Samples were collected at 0,5,7 & 10 days after the initiation of stress
|
| Growth protocol |
Plants were grown 5 weeks in greenhouse (16/8h light/darkness, 65% Humidity and 25ºC) in terra nature substrate suplied by Bas Van Buuren (Holland)
|
| Extracted molecule |
total RNA |
| Extraction protocol |
Phenol method with carbohydrate-enriched tissue such as tubers and trizol for other tissues such as leaves (SGED_SOP_3.1.1 + SGED_SOP_3.3.1)
|
| Label |
Cy3
|
| Label protocol |
Amino allyl labeling and direct labeling (SGED_SOP_5.1.1 + SGED_SOP_6.1.1)
|
| |
|
| Channel 2 |
| Source name |
STP0015
|
| Organism |
Solanum tuberosum |
| Characteristics |
Solanum tuberosum, Leaves, Abiotic stress
|
| Treatment protocol |
To induce water stress,Solanum wild plants were randomly sorted in 2 groups. A group was submitted to non-irrigated conditions (withholding water) and the other was normally watered. Samples were collected at 0,5,7 & 10 days after the initiation of stress
|
| Growth protocol |
Plants were grown 5 weeks in greenhouse (16/8h light/darkness, 65% Humidity and 25ºC) in terra nature substrate suplied by Bas Van Buuren (Holland)
|
| Extracted molecule |
total RNA |
| Extraction protocol |
Phenol method with carbohydrate-enriched tissue such as tubers and trizol for other tissues such as leaves (SGED_SOP_3.1.1 + SGED_SOP_3.3.1)
|
| Label |
Cy5
|
| Label protocol |
Amino allyl labeling and direct labeling (SGED_SOP_5.1.1 + SGED_SOP_6.1.1)
|
| |
|
| |
| Hybridization protocol |
Hybridization with indirectly labeled mRNA (SGED_SOP_6.1.1, SGED_SOP_6.2.1-4)
|
| Scan protocol |
Axon 4000B scanner. Both the 635nm (red, Cy5) and 532nm (green, Cy3) channels are scanned simultaneously at 100% laser power, the PMT set between 600 and 950. Slides are scanned at a resolution of 10micron
|
| Description |
The aim of the present work is to apply microarrays to identify candidate genes associated with the strategies adopted by different Solanum wild species to maintain their metabolism and limit the harm under water stress conditions. Wild genotypes are a rich source of novel genes for introduction into cultivated species to enhance stress tolerance. The mechanisms in which genes act can involve different pathways inside the cell, resulting in the expression of stress responsive genes. We will identify genes whose expression change in the leaves of potato plants subjected to drought stress. We will analyze different Solanum genotypes in six moments of water stress (0,1,3,5,7 & 10 days after initiation of stress). We will selected 4 time-points (days 0,5,7 & 10) and 2 genotypes (with divergence behavior) for microarrays analysis. The candidate genes obtained with this approach will be validated by semi-quantitative northern blot analysis (Typhoon scanner) and/or RT-PCR in each time-point of treatment and with all wild genotypes in study. This will help us to get a better understanding respect the dynamics of expression of a great number of genes in response to stress, as well as to establish functional relations between the involved genes. Research Plan: 5-weeks-old Solanum wild species plants were randomly sorted in 2 groups (25 plants per group). One group was submitted to non-irrigated conditions, withholding water and the other was normally watered. For microarray analysis, leaflets tissue from 4 plants per group of 4 time-points (days 0,5,7, & 10) were pooled, frozen in liquid nitrogen and stored at –80°C.RNA of the pool was extracted following TRIZOL method (Invitrogen). RNA integrity was verified on agarose gel. Hybridizations were performed with n genotypes,t time-points and r repeats. The hybridizations proposed in this experiment to enhance statistical robustness of data will be: 32 slides = n*t*r ; (2 genotypes; 4 time-points; 4 repeats (dye-swap).
|
| Data processing |
The TIFF images were quantified using Genepix 5.0. Local background was subtracted from the signal value and the data was normalized using the quantile method in the limma package of bioconductor.
|
| |
|
| Submission date |
Feb 12, 2008 |
| Last update date |
Feb 12, 2008 |
| Contact name |
Jia Liu |
| E-mail(s) |
[email protected]
|
| URL |
http://www.tigr.org/tdb/potato
|
| Organization name |
Plant Genomics
|
| Street address |
9712 Medical Center Drive
|
| City |
Rockville |
| State/province |
MD |
| ZIP/Postal code |
20850 |
| Country |
USA |
| |
|
| Platform ID |
GPL3838 |
| Series (1) |
| GSE10481 |
Comparative Solanum wild species transcription profiles under controlled water stress conditions |
|
| Data table header descriptions |
| ID_REF |
Spot identifier for each feature |
| VALUE |
Normalized log2 ratio of normalized intensities defined by CH2/CH1. This value is set to null if it is flagged with "M" or "X" |
| CH1_NORMALIZED |
Normalized background subtracted CH1 intensity (RED channel) |
| CH1_RAW |
Background (CH1_BACKGROUND) subtracted raw intensity (F635 Mean - B635 Media) |
| CH1_BACKGROUND |
CH1 background median intensity (B635 Media) |
| CH2_NORMALIZED |
Normalized background subtracted CH2 intensity (GREEN channel) |
| CH2_RAW |
Background (CH2_BACKGROUND) subtracted raw intensity (F532 Mean - B532 Media) |
| CH2_BACKGROUND |
CH2 background median intensity (B532 Media) |
| FLAG |
B: no flag, good spot; X: undetectable spot; M: flagged for diameter < 70 microns, the percentage of saturated pixels > 30% or not validated PCR product |
