Difference between revisions of "Part:BBa K1602004"
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===<h2>Improvements: TheKingsSchool_AU_HS</h2>=== | ===<h2>Improvements: TheKingsSchool_AU_HS</h2>=== | ||
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+ | The improved part for the coding sequence is [https://parts.igem.org/Part:BBa_K4324100 BBa_K4324100], and a functional composite part with a promoter, RBS and terminator is at [https://parts.igem.org/Part:BBa_K4324000 BBa_K4324000]. | ||
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[[Image:Aldose reductase michaelis constants.png|400px|thumb|center|'''Figure 3:''' Aldose reductase (GRE3) Michaelis constants, from [https://journals.asm.org/doi/epdf/10.1128/aem.61.4.1580-1585.1995 Purification and partial characterization of an aldo-keto reductase from Saccharomyces cerevisiae] by Kuhn A., van Zyl C., van Tonder A., Prior B.A.]] | [[Image:Aldose reductase michaelis constants.png|400px|thumb|center|'''Figure 3:''' Aldose reductase (GRE3) Michaelis constants, from [https://journals.asm.org/doi/epdf/10.1128/aem.61.4.1580-1585.1995 Purification and partial characterization of an aldo-keto reductase from Saccharomyces cerevisiae] by Kuhn A., van Zyl C., van Tonder A., Prior B.A.]] |
Revision as of 13:09, 8 October 2022
Aldose reductase - GRE3
GRE3 is a gene, coding for an aldose reductase. The reductase catalyzes the conversion from xylose to xylitol in dependance of NADPH. | |
Figure 1 aldose reductase (coded by GRE3) |
Contents
Characteristics
Molecular Weight | 37118.78 |
Residues | 327 |
Charge | 3.5 |
Isoelectric Point | 7.0925 |
A280 Molar Extinction Coefficients | 45380 (reduced) 45755 (cystine bridges) |
Improbability of expression in inclusion bodies | 0.605 |
[Data taken from PEPSTATS] |
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Usage and Biology: TheKingsSchool_AU_HS
Aldose reductase is also notated as NAD(P)H-dependent D-xylose reductase, or xylose reductase (XR).
Xylose reductase (EC 1.1.1.307) is an enzyme that serves as a catalyst for the conversion of xylose into xylitol, and vice versa, according to the following chemical equation:
In S. cerevisiae and S. stipitis yeast cells, xylose reductase forms the first process in the XR-XDH pathway, as shown in Figure 1, which converts xylose into xylulose via xylitol. Xylulose is then converted into xylulose-5-phosphate (X5P) for further metabolism in the pentose phosphate pathway. This XR reaction is reversible.
Analysing the kinetic parameters of xylose reductase, we see that xylose reductase has a Km value of 42mM for D-xylose, and 420mM for D-glucose. This demonstrates that xylose reductase in S. stipitis has a much higher affinity for xylose than glucose. Furthermore, we can see higher Vmax values on both NADH (16.7 vs 11.8) and NADPH (23.2 vs 17.5) as a coenzyme. This presents opportunities for expressing this enzyme in microorganisms that struggle to metabolise xylose in the presence of glucose (e.g. E. coli) for improved xylose uptake.
In such case, as the reaction is reversible from xylitol to D-xylose, expressing within E.coli would allow utilization of xylitol as the sole carbon source. This will occur first by this reverse reaction to xylose, then by direct isomerisation through xylose isomerase (XI pathway) which exists natively within E. coli. However, it must be noted that the reverse reaction incurs a reaction rate which is 4-5% that of the forward reaction, and so it is hardly useful.
Improvements: TheKingsSchool_AU_HS
The improved part for the coding sequence is BBa_K4324100, and a functional composite part with a promoter, RBS and terminator is at BBa_K4324000.