College health professionals deal with a range of medical problems and risky behaviors. Some medical conditions occur more frequently in the college-age population, but college health is not unique because of the types of medical problems seen. Community providers welcome the opportunity to deliver primary care to this relatively healthy population, with less emphasis on screening, intervention, mental health, social well-being, and altering unhealthy behaviors. Young people have been recognized as experiencing higher rates of morbidity, disability, and mortality from various developmental, environmental, and behavioral risk factors than the general population. These risk factors are so interrelated that successful efforts to change them require a more comprehensive approach that extends beyond the health of individuals to the wellness of an entire campus community. On the continuum of health and well-being, college health must move away from focusing on disease and move toward community wellness.
Examination of conserved motifs on the cloned subunits of the deoxyguanosine kinase/deoxyadenosine kinase (dGK/dAK) of Lactobacillus acidophilus R-26 has begun with the Asp-Arg-Ser (DRS) motif. Replacement of Asp-78 of both subunits with Glu, Ala, or Asn reduced dGK and dAK activities to less than 0.2%, whereas replacement of Arg-79 with Lys, either on both subunits in tandem (R79K), or on the dGK subunit only (R79K:dGK), yielded active but kinetically modified enzymes. These were partially purified, and their kinetic and regulatory properties were analyzed. For dAK activity, the Vmax of the R79K:dGK enzyme was increased 28-fold, with no change in the limiting Km for dAdo, but with a slightly reduced Km for MgATP. The V/K efficiency ratio of dAK was also increased 29-fold, but that of dGK was decreased to 5-10% due to a 10-fold increase in Km for dGuo and a reduced Vmax. Therefore, the R79K substitution seems to have a greater effect on dGuo binding than on that of dAdo, but dGK modification appears to produce a stimulatory conformational effect on the opposite subunit, resembling the known unidirectional activation of dAK by either dGuo or dGTP.
Heterodimeric quaternary structures for two enzyme complexes from Lactobacillus acidophilus R-26 exhibiting deoxycytidine kinase/deoxyadenosine kinase (I) and deoxyguanosine kinase/deoxyadenosine kinase(II) activities have been proven by the following steps: (1) separation of each complex into two components on SDS-PAGE at pH 6.6; (2) N-terminal amino acid sequencing of each component; (3) functional assignment of each component by differential limited proteolysis. The third step was facilitated by the finding that the binding of a specific end-product inhibitor dNTP, to each kinase active site makes the corresponding kinase subunit resistant to trypsin, while leaving the heterologous kinase subunit susceptible to proteolysis. Analysis on SDS-PAGE has revealed only two fragments (15.8 and 11.0 kDa) following proteolysis of dCyd kinase/dAdo kinase (I) with trypsin in the presence of dATP. This may indicate that the kinase polypeptide chain (27.2 kDa) not protected by dNTP is cut by trypsin at a single specific site, with concomitant loss of activity. Thus, this work presents a unique approach to the clarification of structure and function of enzymes composed of heterologous subunits.
This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.