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In the plant Arabidopsis thaliana, At1g15390.1 is a gene model for the locus At1g15390.[1]

Also known as PDF1A, this gene model is classified by TAIR as "PDF1A (PEPTIDE DEFORMYLASE 1A); peptide deformylase". It is located on chr1, region 5294648-5295620 FORWARD.

Physiological function[]

At1g15390.1/Function_____________The entry below does not belong to this gene_________________ ___________________________ ____________________ ___________ __________ __________________ __________________ _________________ _________________ ______________ ________________ (At1g78590) NADK3 (At1g78590) is a NAD(H) kinase with a strong preference for NADH over NAD+. NAD(H) kinases phosphorylate NAD(H) with ATP (other phosphoryl donors are not used preferentially) to form NADP(H). Phosphorylation of NAD(H) is the sole known means of generating NADP(H) de novo.

Tissue expression[]

At1g15390.1/Expression

Subcellular localization[]

At1g15390.1/Localization_____________The entry below does not belong to this gene_________________ ___________________________ ____________________ ___________ __________ __________________ __________________ _________________ _________________

NADK3-GFP has been shown by in vivo transient expression to be localized to the cytosol, confirmed by immunoblotting.

Biophysical properties[]

The gene model At1g15390.1 has 269 amino-acid residues and a molecular weight Mw = 29.998 kDa.

The protein is relatively neutral; at the physiological pH 7.4, its net charge is 3.22, or 0.012 per residue._____________The entry below does not belong to this gene_________________ ___________________________ ____________________ ___________ __________ __________________ __________________ _________________ _________________ NADK3-GFP has been shown by in vivo transient expression to be localized to the cytosol, confirmed by immunoblotting.

Knockout phenotype[]

At1g15390.1/Knockout

Protein interactions[]

At1g15390.1/Interactions_____________The entry below does not belong to this gene_________________ ___________________________ ____________________ ___________ __________ __________________ __________________ _________________ _________________ This protein does not interact with calmodulin in the presence or absence of calcium or EGTA. NADK3 has been reported to be phosphorylated in vitro by AtMAPK4. NADK3 forms a homodimer.

Domain structure[]

The gene model At1g15390.1 has 1 recognized domains:

  • Domain_0080_0250 Pep_deformylase domain (PF01327, IPR000181) Description: Formylmethionine deformylase;Molecular Function: iron ion binding (GO:0005506), Biological Process: protein biosynthesis (GO:0006412), Molecular Function: peptide deformylase activity (GO:0042586)_____________The entry below does not belong to this gene_________________ ___________________________ ____________________ ___________ __________ __________________ __________________ _________________ _________________

NADK3 contains the conserved NAD(H) kinase domain, GSTAAMQSAGG for binding NAD and the upstream GGDGT ATP-binding domain.

Amino-acid sequence[]

>At1g15390.1
MGLHRDEATA METLFRVSLR LLPVSAAVTC RSIRFPVSRP GSSHLLNRKL YNLPTSSSSS LSTKAGWLLG LGEKKKKVDL PEIVASGDPV LHEKAREVDP GEIGSERIQK IIDDMIKVMR LAPGVGLAAP QIGVPLRIIV LEDTKEYISY APKEEILAQE RRHFDLMVMV NPVLKERSNK KALFFEGCLS VDGFRAAVER YLEVVVTGYD RQGKRIEVNA SGWQARILQH ECDHLDGNLY VDKMVPRTFR TVDNLDLPLA EGCPKLGPQ
________________Given the above incorrect annotations, this may, or may not, be the correct sequence for At1g57680.1 _________________ ___________________________ ____________________ ___________ __________ __________________ __________________ _________________ _________________ MAIRKLLLLLKPIDPYPFLQTEGASLIKNPQVLQYLESRCKVHKNAIKFCQEILSKKPVE WKPISRNDLSHPIRDVDMVITVGGDGTLLHASHFIDDSVPVLGVNSDPTQAHEVEELSDQ FDASRSTGHLCAATVENFEQVLDDILFGRVVPAKVSRISLKLNSETLLSHALNDILIAQP CPAAVSRFSFKIKNKDGASSPKTVNCRSSGLRICTAAGSTAAMQSAGGFVMPMLSRDLQF MVREPISPGSTASLMHSTFKPDQFMDVNWYSDHGTIYIDGCQVQHSVQLGDTIEISSDAP VLNVFLSHGISQIRSRY-

Multiple sequence alignment[]

A full-length multiple-sequence alignment (MSA) is available here. This MSA may be visualized by submitting it to a server such as ESPript.

Protein structure[]

A predicted structure for this protein is available here.

References[]

  1. This is a test reference.

Further reading[]

General database links[]

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