Publications

• Structure and expression of human mitochondrial adenylate kinase targeted to the mitochondrial matrix.

  Noma T., Fujisawa K., Yamashiro Y., Shinohara M., Nakazawa A., Gondo T., Ishihara T., Yoshinobu K.

  The previously isolated cDNA encoding human adenylate kinase (AK) isozyme 3 was recently renamed AK4. Consequently, human AK3 cDNA remains to be identified and we have little information about the functional relationship between human AK3 and AK4. In pursuit of the physiological roles of both the ... >> More

  The previously isolated cDNA encoding human adenylate kinase (AK) isozyme 3 was recently renamed AK4. Consequently, human AK3 cDNA remains to be identified and we have little information about the functional relationship between human AK3 and AK4. In pursuit of the physiological roles of both the AK3 and AK4 proteins, we first isolated an authentic human AK3 cDNA and compared their expression. Nucleotide sequencing revealed that the cDNA encoded a 227-amino-acid protein, with a deduced molecular mass of 25.6 kDa, that shares greater homology with the AK3 cDNAs isolated from bovine and rat than that from human. We named the isolated cDNA AK3. Northern-blot analysis revealed that AK3 mRNA was present in all tissues examined, and was highly expressed in heart, skeletal muscle and liver, moderately expressed in pancreas and kidney, and weakly expressed in placenta, brain and lung. On the other hand, we found that human AK4 mRNA was highly expressed in kidney, moderately expressed in heart and liver and weakly expressed in brain. Western-blot analysis demonstrated expression profiles of AK3 and AK4 that were similar to their mRNA expression patterns in each tissue. Over expression of AK3, but not AK4, in both Escherichia coli CV2, a temperature-sensitive AK mutant, and a human embryonic kidney-derived cell line, HEK-293, not only produced significant GTP:AMP phosphotransferase (AK3) activity, but also complemented the CV2 cells at 42 degrees C. Subcellular and submitochondrial fractionation analysis demonstrated that both AK3 and AK4 are localized in the mitochondrial matrix. << Less

  Biochem. J. 358:225-232(2001) [PubMed] [EuropePMC]

• A GTP:AMP phosphotransferase, Adk2p, in Saccharomyces cerevisiae. Role of the C terminus in protein folding/stabilization, thermal tolerance, and enzymatic activity.

  Gu Y., Gordon D.M., Amutha B., Pain D.

  Adenylate kinases participate in maintaining the homeostasis of cellular nucleotides. Depending on the yeast strains, the GTP:AMP phosphotransferase is encoded by the nuclear gene ADK2 with or without a single base pair deletion/insertion near the 3' end of the open reading frame, and the correspo ... >> More

  Adenylate kinases participate in maintaining the homeostasis of cellular nucleotides. Depending on the yeast strains, the GTP:AMP phosphotransferase is encoded by the nuclear gene ADK2 with or without a single base pair deletion/insertion near the 3' end of the open reading frame, and the corresponding protein exists as either Adk2p (short) or Adk2p (long) in the mitochondrial matrix. These two forms are identical except that the three C-terminal residues of Adk2p (short) are changed in Adk2p (long), and the latter contains an additional nine amino acids at the C terminus of the protein. The short form of Adk2p has so far been considered to be inactive (Schricker, R., Magdolen, V., Strobel, G., Bogengruber, E., Breitenbach, M., and Bandlow, W. (1995) J. Biol. Chem. 270, 31103-31110). Using purified proteins, we show that at the physiological temperature for yeast growth (30 degrees C), both short and long forms of Adk2p are enzymatically active. However, in contrast to the short form, Adk2p (long) is quite resistant to thermal inactivation, urea denaturation, and degradation by trypsin. Unfolding of the long form by high concentrations of urea greatly stimulated its import into isolated mitochondria. Using an integration-based gene-swapping approach, we found that regardless of the yeast strains used, the steady state levels of endogenous Adk2p (long) in mitochondria were 5-10-fold lower compared with those of Adk2p (short). Together, these results suggest that the modified C-terminal domain in Adk2p (long) is not essential for enzyme activity, but it contributes to and strengthens protein folding and/or stability and is particularly important for maintaining enzyme activity under stress conditions. << Less

  J. Biol. Chem. 280:18604-18609(2005) [PubMed] [EuropePMC]

• Evidence of an intact N-terminal translocation sequence of human mitochondrial adenylate kinase 4.

  Panayiotou C., Solaroli N., Johansson M., Karlsson A.

  Adenylate kinases are abundant nucleoside monophosphate kinases, which catalyze the phosphorylation of AMP by using ATP or GTP as phosphate donors. A previously cloned cDNA was named adenylate kinase 4 (AK4) based on its sequence similarity with known AKs but with no confirmed AK enzyme activity. ... >> More

  Adenylate kinases are abundant nucleoside monophosphate kinases, which catalyze the phosphorylation of AMP by using ATP or GTP as phosphate donors. A previously cloned cDNA was named adenylate kinase 4 (AK4) based on its sequence similarity with known AKs but with no confirmed AK enzyme activity. In the present study the AK4 cDNA was expressed in Escherichia coli and the substrate specificity and kinetic properties of the recombinant protein were characterized. The enzyme catalyzed the phosphorylation of AMP, dAMP, CMP and dCMP with ATP or GTP as phosphate donors and AK4 also phosphorylated AMP with UTP as phosphate donor. The kinetic parameters of the enzyme were determined for AMP and dAMP with ATP as phosphate donor and for AMP with GTP as phosphate donor. AK4 showed its highest efficiency when phosphorylating AMP with GTP and a slightly lower efficiency for the phosphorylation of AMP with ATP. Among the three reactions for which kinetics were performed, dAMP was the poorest substrate. The AK4 mitochondrial localization was confirmed by expression of AK4 as a fusion protein with GFP in HeLa cells. The mitochondrial import sequence was shown to be located within the first N-terminal 11 amino acid residues, very close to the ATP-binding region of the enzyme. Import analysis suggested that the mitochondrial import sequence was not cleaved and thus the enzyme retained its activity upon entering the mitochondria. Site directed mutagenesis of amino acids Lys 4 and Arg 7 showed that these two residues were essential for mitochondrial import. << Less

  Int. J. Biochem. Cell Biol. 42:62-69(2010) [PubMed] [EuropePMC]

  This publication is cited by 1 other entry.

• Purification and properties of nucleoside triphosphate-adenosine monophosphate transphosphorylase from beef heart mitochondria.

  Albrecht G.J.

  Biochemistry 9:2462-2470(1970) [PubMed] [EuropePMC]