Using oligonucleotide primers derived from the vesicular monoamine transporters sequences, a cDNA predicted to encode the bovine chromaffin granule amine transporter has been cloned (b-VMAT2). Surprisingly, its structure is more similar to the rat brain transporter (VMATZ), than to the rat adrenal counterpart (VMATl). Unlike rat VMATl, bovine VMATZ appears to be expressed both in the adrenal medulla and the brain, as judged by Northern analysis. After modification/deletion of the seven amino acids at the N-terminus of the protein it was expressed in a functional form. The order of affinity of the bovine VMATZ transporter to substrates is: serotonin>dopamine = norepinephrine>epinephrine.Also, the recombinant bovine adrenal transporter is highly sensitive to tetrabenazine, in sharp contrast to the rat adrenal transporter. The findings indicate, therefore, a clear species variation in which structure and function of the bovine adrenal transporter resemble the rat brain protein, while its tissue distribution is distinct from both types of rat proteins. In addition, the predicted protein sequence is identical to the experimentally determined N-terminus sequence of the purified vesicular amine transporter [Stern-Bach et al. (1992) Proc. Natl. Acad. Sci. USA 89, 973%9733].
Human lysyl aminoacyl tRNA synthetase (hLysRS) is integral to a variety of different functions ranging from protein biosynthesis, initiation of a proinflammatory response as well as signal transduction. Another important, non-canonical function of hLysRS is that it chaperones tRNA(Lys,3), the HIV-1 reverse transcription primer molecule into new HIV-1 particles. Since the N-terminal domain of hLysRS has been shown to be essential for such primer uptake, NMR studies of this domain are being conducted to obtain a better understanding of how hLysRS interacts with the primer tRNA. In order to study the RNA binding behavior of this domain, we are studying its complex with a fragment of the cognate tRNA corresponding to the tRNA anticodon loop. We report herein the backbone and side chain NMR resonance assignments of uniformly (15)N-, (13)C-labeled hLysRS N-terminal domain alone, as well as complexed to RNA.
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