Post on 21-Jan-2016
The HAT2 Homeodomain-Like Transcription Factor Family:
Genes AT5G47370 and AT4G17460
Bekah Charney
HC70AL
Spring 2006
What is a HAT2 Homeodomain Transcription Factor?
• Type of transcription factor that is only found in plants
• Has been studied in sunflowers, where it is expressed primarily in the leaves
• When Hahb-4 (sunflower homeobox-leucine zipper protein) was introduced into Arabidopsis, plants were more tolerant to water stress conditions
• HAT2 gene is induced by auxin, a plant hormone that regulates growth and development
Where is AT5G47370 located and what does it code for?
• AT5G47370 is located on the 5th chromosome
• The gene is 1,598 basepairs in length
• It codes for a HAT2 homeobox leucine zipper protein
• The size of this protein is 284 amino acids
• Within the chromosome, the gene is oriented in the 3’ 5’ direction
What are the Anatomical Features of AT5G47370?
EXON 15’URT3’_____
EXON 2 EXON 3 EXON 4_____ ______
5’UTR3’
263-413 549-859 943-1022 1119-1598
Where is AT4G17460 and what does it code for?
• AT4G17460 is on the 4th chromosome
• The gene is 1,467 basepairs in length
• Within the chromosome, the gene is oriented in the 5’ 3’ direction
• It codes for a HAT1 homeobox protein mRNA
• The size of this protein is 283 amino acids
What are the Anatomical Features of AT4G17460?
EXON 15’URT3’_____
EXON 2 EXON 3 EXON 4_____ ______
5’UTR3’
183-330 418-746 832-911 1013-1304
What Genotypes Did My Plants Reveal?SALK_055288 knockout for gene AT5G47370
Homozygous mutants were found, showing that a knockout of this gene does not cause seed lethality
Homozygous Mutant
Expected WT Size = 731 bpsObserved WT Size = 700 bpsExpected Mutant Size = 354 bpsObserved Mutant Size = 737 and 354 bps
15 Plants were genotyped:-8 Homozygous WT-7 Homozygous M-0 Heterozygotes
Wild Type
Where is the T-DNA Insert in AT5G47370?
EXON 15’URT EXON 2 EXON 3 EXON 4_____ ______
3’UTR
•Sequencing results showed that there were two T-DNA inserts [concatomer] at nucleotide 1,361, but oriented in opposite directions
•The location of the T-DNA inserts matches SALK’s predictions
T-DNA
LBb1 LBb1
RVFW
What were the genotypes for SALK_069162 knockout for gene AT4G17460?
Homozygous Mutant
Since homozygous mutant plants were found, it can be concluded that a knockout of AT4G17460 does not cause seed lethality
Expected WT Size = 1,037 bps
Observed WT Size = 1,000 bps
Expected Mutant Size = 669 bps
Observed Mutant Size = 784 bps
Wild Type
Where is the T-DNA insert in gene AT4G17460?
EXON 15’URT_____
EXON 2 EXON 3 EXON 4_____ ______
3’UTR
T-DNA
•Sequencing results showed that there is a single T-DNA insert at nucleotide 336 in the first Intron
•This is a 115 basepair difference than what SALK predicted, which was at nucleotide 451 in the second Exon
FW RV
LBb1
Where is the gene AT5G47370 active?
My RT-PCR data supports the gene chip data that this gene is active in both the stem and the silique, although the levels of activity cannot be determined
Where is the gene AT4G17460 active?
My RT-PCR data differs from the gene chip data in that I found the gene AT4G17460 to be active in both the inflorescence and the silique
What work was done with the upstream region of the AT5G47370 gene and the AT4G17460 gene?
•Amplification of upstream region using iProof High Fidelity DNA Polymerase
•Upstream region ligated with TOPO-vector so lacZ gene is knocked out
•E. Coli cells are transformed with recombinant plasmids
•Restriction Digest with EcoRI
•Plasmids isolated and sequenced with Sp6 and T7 [AT5G47370 only]
Amplified upstream region is 3 kB for gene AT5G47370
Restriction digest of TOPO-vector with EcoRI shows a 3.5 kB band and an approximately 2.9 kB band
AT4G17460
What further experiments can be done with this information?
Did the knockout Arabidopsis plants show any phenotypic differences than the WT plants?
Knockout for gene AT5G47370 Wild Type
Early Torpedo Stage
NO!
Mature Stage
NO!
Sterile plants were found in knockout line SALK_069162
Genotypes of Sterile Plants
Number of Sterile Plants
Homozygous WT
0
Heterozygous 2
Homozygous Mutant
6
Siliques do not fully develop in the sterile plants
Knockout for gene AT4G17460 Wild Type
•Some siliques did not develop seeds
•For those that did, seeds did not contain an embryo
Conclusion
• A knockout of gene AT5G47370 did not result in seed lethality or show any phenotypic differences– Gene not important in seed
development?– Another gene is fulfilling its
function?
• A knockout of gene AT4G17460 did not result in seed lethality, but all known mutants and two heterozygotes showed sterility
– Sterility is simply due to an environmental factor?
– Knockout of gene is causing sterility, either alone or with other factors?
What’s the next step?
• AT5G47370– Double knockout– Use GFPs and cloned
upstream region to help determine where and when gene is being expressed
• AT4G17460– Check another
knockout line (SAIL) to see if sterile plants result and genotype any sterile plants
– Breed known heterozygotes and check to see if sterile plants result
– Double knockout– GFPs
Acknowledgements
I would like to thank Anhthu, Mike, Ria, Jonathan, Tomo, Brandon, XingJun, Jessica, the entire HC70AL class and Dr. Goldberg for all their help and guidance
throughout this quarter
I would also specifically like to thank Jennifer, Ria, Jonathan and XingJun for allowing me to
use their Nomarski photographs in this presentation, as well as Brandon for the gene
chip data used in this presentation