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- Abiotic stress response (1)
- Drought (1)
- Genome (1)
- HIV-1 (1)
- Histone-Lysine N-Methyltransferase (1)
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- Human immunodeficiency virus (HIV) (1)
- Humans (1)
- Jurkat Cells (1)
- Lysine (1)
- Methylation (1)
- MicroRNAs (1)
- NAC (1)
- Pearl millet (1)
- Pennisetum glaucum (1)
- Post-translational modification (PTM) (1)
- Protein methylation (1)
- Salinity (1)
- Tat Gene Products, Human Immunodeficiency Virus (1)
- Transcription factor (1)
- Transcription regulation (1)
- Transcriptional Activation (1)
- Viral transcription (1)
Articles 1 - 2 of 2
Full-Text Articles in Horticulture
Comprehensive Analysis Of Nac Transcription Factor Family Uncovers Drought And Salinity Stress Response In Pearl Millet (Pennisetum Glaucum), Ambika Dudhate, Harshraj Shinde, Pei Yu, Daisuke Tsugama, Shashi Kumar Gupta, Shenkui Liu, Tetsuo Takano
Comprehensive Analysis Of Nac Transcription Factor Family Uncovers Drought And Salinity Stress Response In Pearl Millet (Pennisetum Glaucum), Ambika Dudhate, Harshraj Shinde, Pei Yu, Daisuke Tsugama, Shashi Kumar Gupta, Shenkui Liu, Tetsuo Takano
Pharmaceutical Sciences Faculty Publications
BACKGROUND: Pearl millet (Pennisetum glaucum) is a cereal crop that possesses the ability to withstand drought, salinity and high temperature stresses. The NAC [NAM (No Apical Meristem), ATAF1 (Arabidopsis thaliana Activation Factor 1), and CUC2 (Cup-shaped Cotyledon)] transcription factor family is one of the largest transcription factor families in plants. NAC family members are known to regulate plant growth and abiotic stress response. Currently, no reports are available on the functions of the NAC family in pearl millet.
RESULTS: Our genome-wide analysis found 151 NAC transcription factor genes (PgNACs) in the pearl millet genome. Thirty-eight …
The Hiv-1 Tat Protein Is Monomethylated At Lysine 71 By The Lysine Methyltransferase Kmt7, Ibraheem Ali, Holly Ramage, Daniela Boehm, Lynnette M. A. Dirk, Naoki Sakane, Kazuki Hanada, Sara Pagans, Katrin Kaehlcke, Katherine Aull, Leor Weinberger, Raymond Trievel, Martina Schnoelzer, Masafumi Kamada, Robert L. Houtz, Melanie Ott
The Hiv-1 Tat Protein Is Monomethylated At Lysine 71 By The Lysine Methyltransferase Kmt7, Ibraheem Ali, Holly Ramage, Daniela Boehm, Lynnette M. A. Dirk, Naoki Sakane, Kazuki Hanada, Sara Pagans, Katrin Kaehlcke, Katherine Aull, Leor Weinberger, Raymond Trievel, Martina Schnoelzer, Masafumi Kamada, Robert L. Houtz, Melanie Ott
Horticulture Faculty Publications
The HIV-1 transactivator protein Tat is a critical regulator of HIV transcription primarily enabling efficient elongation of viral transcripts. Its interactions with RNA and various host factors are regulated by ordered, transient post-translational modifications. Here, we report a novel Tat modification, monomethylation at lysine 71 (K71). We found that Lys-71 monomethylation (K71me) is catalyzed by KMT7, a methyltransferase that also targets lysine 51 (K51) in Tat. Using mass spectrometry, in vitro enzymology, and modification-specific antibodies, we found that KMT7 monomethylates both Lys-71 and Lys-51 in Tat. K71me is important for full Tat transactivation, as KMT7 knockdown impaired the transcriptional activity …