DHRS1 Discussion
Structure
HA! first
Although the SDR family show low sequence identity (15-20%) they have highly conserved structural features in particular the NAD(P) binding site, central β-strand and co-enzyme binding site.
DHRS1 has been crystallized to a resolution of 1.8 Å with an R-value of 0.159. This R-value however was achieved without recording a highly mobile region of 22 amino acids which covers over the NAD(P) binding site, and may act as a cap locking the NAD(P) into the binding site.
Structural alignments with other members of the SDR family showed that the most closely structurally related proteins where all involved in reducing substrates (reductases). In particular Glucose reductases appeared frequently (Table 1).
Sequence
The Short chain dehydrogenase family has evolved over a long period of time and has two main forms, classical SDR and extended SDR.
Classic SDR is primarily found in bacteria and is approximately 250 amino acids long and appears to have evolved first, extended SDR's are typically 350 amino acids long and have evolved later. The sequence identity for this family is low, approdimately 15 to 20%, This is due to the age of the family and has lead to many point mutations, which have been incorporated over time when the mutation is not fatal to the organism.
One of the mutations incorporated over time is for a subgroup of the family including land based higher organisms
such as humans, monkeys, dogs, cats and cows. This is identified by an inserted motif K-[A,S]-F-W-E-x-P-A-S at
location 138 - 146. This region does not exist in the classic SDR family and shows variation in the extended family,
although is completely conserved within organisms such as those named earlier. The extended SDR family includes
some proteobacteria and all the sequences of the anamalia kingdom with the exception of Aedes aegypti. This
subgroup suggests that the extended SDR family evolved from the classic SDR family and has continued to evolve. It
also suggests that this family was incorporated into higher organisms after this evolution to the extended SDR.
