Information report for SlGLYIII2
Gene Details
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Functional Descriptions
- A glutathione-independent DJ-1/PfpI domain-containing tomato glyoxalaseIII2, SlGLYIII2, confers enhanced tolerance under salt and osmotic stresses.
- Stress-inducible overexpression of both glutathione-dependent (SlGLYI4 + SlGLYII2) and independent (SlGLYIII2) pathways led to enhanced tolerance in both sets of transgenic plants under abiotic stresses.
- Knockdown of SlGLYIII2 resulted in plants with exacerbated stress responses than those silenced for both SlGLYI4 and SlGLYII2.
- The superior performance of SlGLYIII2 OE tomato plants for better growth and yield under salt and osmotic treatments could be attributed to better GSH/GSSG ratio, lower reactive oxygen species levels, and enhanced antioxidant potential, indicating a prominent role of GLYIII MG-detoxification pathway in abiotic stress mitigation in this species.
Functional Keywords
Literature and News
Sequences
cDNA Sequence
- >Solyc02g081400.3.1
TCTTCGTCTTCTTCTCTTATAATATATATCAATTCCTTAATCTCTTCCACACACAGAGAAAGAGAAAGATAGAGCTCAATTCCAGCTGATTGAAAAATGGCAAATCAGAAAAGGGTTCTCTTACTATGTGGAGATTACGTTGAAGACTATGAGGTGATGGTACCATTTCAAGCTCTACTAGCCTATGGACTAGCCGTTGATGCTGTTTGTCCTGGAAAGAAATCCGGTGACATTTGCCGCACTGCCGTCCATCAGCTTTATGGTCACCAGACATATTCAGAGTCCCGCGGACACAATTTTGCTGTTAATGCAACCTTCGATGAAATCGAGGCTACAAAGTATGATGGCTTGTTCATACCAGGAGGACGTGCTCCAGAATATCTGGCCATGAATGAAGCTGTGTTGGACTTGGTGAAAAGTTTTGCCAACACTAAAAAGCCAATTGTCTCTGTCTGTCATGGACAACTGATCCTGGCGGCTGCAGATGTGGTCAGAGGTCGAAAGTGCACAGCTTATCCTGCTGTCAAGCCGGTGCTTGTTGCGGCTGGTGCCCATTGGGAAGAGCCAGAAACCCTGGCCTCATGTACCATCGATGGTAATCTCATCACTGGATCTACTTACGAAGGAAACCCTGATTTCATTCGACTCTTTGTTAAGGCACTCGGTGGCAGCATAGTTGGTTCTGGTAAAAGAATCCTATTTCTATGTGGGGATTTCATGGAAGACTATGAAGTCAAGGTACCTTTTCAGTCCCTCCAAGCTCTTGAATGCCATGTTGATGCTGTTTGCCCCAAGAAGAAAGCCGGAGAGAAATGCCCCACGGCTGTGCACGACTTTGAAGGTGACCAGACTTATAGTGAGAAGCCAGGTCACGATTTTACCCTGAATGCCAATTTTGAAAGTGTGGATGTTTCAAGCTATGATGGACTTGTAATTCCCGGAGGCCGAGCTCCAGAATACCTTGCCCTGGATGATGATGTTATTAAGTTGGTCCAGGAATTTATGGAGTCCAAAAAACCAGTTGCATCAATCTGCCATGGGCAACAGATACTATCTGCTGCTGGTGTTCTCAAGGGTAAGAAGTGTACTGCGTACCCTGCTGTGAAACTTAACGTGATACTAGGAGGGGCGACATGGCTAGAACCAGAACCAATAGACCGTTGCTTCACGGACGGACATCTTGTGACGGGGGCAGCTTGGCCAGGTCATCCTGAGTTTATTTCTCAGTTCATGGCACTGCTTGGAGTGCATGTAAAATTTTAGGCTACTTGTTTGTTTGACATGTTTTGCCAGGTGATGAGAATAAATTTTTTTTAATTGTAACAGAATAATGAGTGTGTTTTTATAATGTTCGAAAATCACTAAAACTACTGATGTCCGCATAAATGTACTCCCTTGGGAATTCTAAATGTGACTTTTTTACCTATTTACT
CDS Sequence
- >Solyc02g081400.3.1
ATGGCAAATCAGAAAAGGGTTCTCTTACTATGTGGAGATTACGTTGAAGACTATGAGGTGATGGTACCATTTCAAGCTCTACTAGCCTATGGACTAGCCGTTGATGCTGTTTGTCCTGGAAAGAAATCCGGTGACATTTGCCGCACTGCCGTCCATCAGCTTTATGGTCACCAGACATATTCAGAGTCCCGCGGACACAATTTTGCTGTTAATGCAACCTTCGATGAAATCGAGGCTACAAAGTATGATGGCTTGTTCATACCAGGAGGACGTGCTCCAGAATATCTGGCCATGAATGAAGCTGTGTTGGACTTGGTGAAAAGTTTTGCCAACACTAAAAAGCCAATTGTCTCTGTCTGTCATGGACAACTGATCCTGGCGGCTGCAGATGTGGTCAGAGGTCGAAAGTGCACAGCTTATCCTGCTGTCAAGCCGGTGCTTGTTGCGGCTGGTGCCCATTGGGAAGAGCCAGAAACCCTGGCCTCATGTACCATCGATGGTAATCTCATCACTGGATCTACTTACGAAGGAAACCCTGATTTCATTCGACTCTTTGTTAAGGCACTCGGTGGCAGCATAGTTGGTTCTGGTAAAAGAATCCTATTTCTATGTGGGGATTTCATGGAAGACTATGAAGTCAAGGTACCTTTTCAGTCCCTCCAAGCTCTTGAATGCCATGTTGATGCTGTTTGCCCCAAGAAGAAAGCCGGAGAGAAATGCCCCACGGCTGTGCACGACTTTGAAGGTGACCAGACTTATAGTGAGAAGCCAGGTCACGATTTTACCCTGAATGCCAATTTTGAAAGTGTGGATGTTTCAAGCTATGATGGACTTGTAATTCCCGGAGGCCGAGCTCCAGAATACCTTGCCCTGGATGATGATGTTATTAAGTTGGTCCAGGAATTTATGGAGTCCAAAAAACCAGTTGCATCAATCTGCCATGGGCAACAGATACTATCTGCTGCTGGTGTTCTCAAGGGTAAGAAGTGTACTGCGTACCCTGCTGTGAAACTTAACGTGATACTAGGAGGGGCGACATGGCTAGAACCAGAACCAATAGACCGTTGCTTCACGGACGGACATCTTGTGACGGGGGCAGCTTGGCCAGGTCATCCTGAGTTTATTTCTCAGTTCATGGCACTGCTTGGAGTGCATGTAAAATTTTAG
Protein Sequence
- >Solyc02g081400.3.1
MANQKRVLLLCGDYVEDYEVMVPFQALLAYGLAVDAVCPGKKSGDICRTAVHQLYGHQTYSESRGHNFAVNATFDEIEATKYDGLFIPGGRAPEYLAMNEAVLDLVKSFANTKKPIVSVCHGQLILAAADVVRGRKCTAYPAVKPVLVAAGAHWEEPETLASCTIDGNLITGSTYEGNPDFIRLFVKALGGSIVGSGKRILFLCGDFMEDYEVKVPFQSLQALECHVDAVCPKKKAGEKCPTAVHDFEGDQTYSEKPGHDFTLNANFESVDVSSYDGLVIPGGRAPEYLALDDDVIKLVQEFMESKKPVASICHGQQILSAAGVLKGKKCTAYPAVKLNVILGGATWLEPEPIDRCFTDGHLVTGAAWPGHPEFISQFMALLGVHVKF*