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Table 1. Genes associated <strong>with</strong> carbohydrate, carotenoid and organic acid metabolism. SNPs were developed for all the listed genes. Stars<br />
mark the genes located on the melon map.<br />
Alkaline alpha<br />
galac<strong>to</strong>sidase I<br />
* Alkaline alpha<br />
galac<strong>to</strong>sidase 2<br />
* Acid alpha<br />
galac<strong>to</strong>sidase 1<br />
* Putative galac<strong>to</strong>se<br />
kinase<br />
Galac<strong>to</strong>se-1-phosphate<br />
uridyltransferase<br />
* UDP-glucose 4epimerase<br />
1<br />
UDP-glucose 4epimerase<br />
2<br />
UDP-glucose 4epimerase<br />
3<br />
UDP-glucose<br />
pyrophosphorylase<br />
*Phosphoglucomutase<br />
(cy<strong>to</strong>sol)<br />
* Sucrose-phosphate<br />
synthase 1<br />
Putative sucrose<br />
transporter<br />
Sugar transporter<br />
superfamily<br />
Carbohydrate genes<br />
Hexose<br />
transporter 1<br />
* Hexose transporter<br />
6<br />
* Acid<br />
invertase 1<br />
* Acid<br />
invertase 2<br />
*Alkaline/<br />
neutral invertase 1<br />
*Alkaline/<br />
neutral invertase 2<br />
* Sucrose<br />
synthase<br />
Sucrose<br />
synthase 1<br />
* Sucrose cleavage<br />
protein-like<br />
Hexokinase 2<br />
Fruc<strong>to</strong>kinase 3<br />
Carotenoid genes<br />
* Geranylgeranyl<br />
Pyrophosphate reductase<br />
Geranylgeranyl<br />
pyrophosphate synthase<br />
* Phy<strong>to</strong>ene<br />
synthase 1<br />
* Phy<strong>to</strong>ene<br />
synthase 2<br />
* Phy<strong>to</strong>ene desaturase<br />
* Zeta carotene<br />
desaturase<br />
* Lycopene betacyclase<br />
* Βeta-carotene<br />
hydroxilase<br />
* Carotenoid isomerase<br />
Phosphoenol pyruvate<br />
carboxykinase<br />
* Phosphoenol pyruvate<br />
carboxylase (a)<br />
* Phosphoenol pyruvate<br />
carboxylase (b)<br />
* Citrate synthase<br />
(glyoxysome)<br />
* Citrate synthase<br />
(mi<strong>to</strong>chondria)<br />
* Aconitase<br />
* NAD Isocitrate<br />
dehydrogenase (β)<br />
* α ke<strong>to</strong> glutarate<br />
dehydrogenase (E2)<br />
* Succinyl CoA<br />
synthetase (α)<br />
* Succinyl CoA<br />
synthetase (β)<br />
* Succinate<br />
dehydrogenase (α)<br />
* Succinate<br />
dehydrogenase (β)<br />
* Fumarase<br />
Organic acid genes<br />
NAD malate<br />
dehydrogenase (mi<strong>to</strong>chondria)<br />
NAD malate<br />
dehydrogenase (glyoxysome)<br />
* NADP malic<br />
enzyme (chloroplast)<br />
* NAD malate<br />
dehydrogenase (chloroplast)<br />
* Malate synthase<br />
(glyoxysome)<br />
* NADP Isocitrate lyase<br />
ATP citrate lyase (b)<br />
NADP malic enzyme<br />
(cy<strong>to</strong>sol)<br />
* NAD Isocitrate dehydrogenase<br />
* Citrate transporter (mi<strong>to</strong>chondria)<br />
*Citrate transporter<br />
(glyoxysome)<br />
* Vacuolar pump<br />
V0-a subunit<br />
* Vacuolar pump V0-c'<br />
subunit<br />
* Vacuolar pump<br />
V0-c subunit<br />
* Vacuolar pump V0-d<br />
subunit<br />
* Vacuolar pump<br />
V0-e subunit<br />
* Vacuolar pump V1-a<br />
subunit<br />
* Vacuolar pump<br />
V1-b subunit<br />
Vacuolar pump<br />
V1-C subunit<br />
* Vacuolar pump V1-d<br />
subunit<br />
* Vacuolar pump<br />
V1-e subunit<br />
* Vacuolar pump<br />
V1-f subunit<br />
Vacuolar pump<br />
V1-G subunit<br />
Vacuolar H[+]translocating<br />
inorganic<br />
pyrophosphatase<br />
<strong>Cucurbit</strong> Genetics Cooperative Report 28-29: 19-21 (2005-2006) 21