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D-Turanoza
	(3S,4R,5R)-1,4,5,6-tetrahidroksi-3-[(2R,3R,4S,5S,6R)-3,4,5-trihidroksi-6-(hidroksietil)oksan-2-il]oksiheksan-2-on
Drugi nazivi	α-D-glukopiranozil-(1→3)-α-D-fruktopiranoza
Identifikacija
CAS registarski broj	547-25-1
PubChem	5460935
ChemSpider	4574343
MeSH	turanose
Jmol-3D slike	Slika 1
SMILES
	O=C([C@@H](O[C@H]1O[C@@H]([C@@H](O)[C@H](O)[C@H]1O)CO)[C@H](O)[C@H](O)CO)CO
InChI
	InChI=1S/C12H22O11/c13-1-4(16)7(18)11(5(17)2-14)23-12-10(21)9(20)8(19)6(3-15)22-12/h4,6-16,18-21H,1-3H2/t4-,6-,7-,8-,9+,10-,11-,12-/m1/s1 ; Kod: RULSWEULPANCDV-PIXUTMIVSA-N InChI=1/C12H22O11/c13-1-4(16)7(18)11(5(17)2-14)23-12-10(21)9(20)8(19)6(3-15)22-12/h4,6-16,18-21H,1-3H2/t4-,6-,7-,8-,9+,10-,11-,12-/m1/s1; Kod: RULSWEULPANCDV-PIXUTMIVBJ
Svojstva
Molekulska formula	C12H22O11
Molarna masa	342,30 g/mol
	(šta je ovo?) (verifikuj) ; Ukoliko nije drugačije napomenuto, podaci se odnose na standardno stanje (25 °C, 100 kPa) materijala
	Infobox references

Turanoza je redukujući disaharid. D-izomer se prirodno javlja. Njeno sistemsko ime je α-D-glukopiranozil-(1→3)-α-D-fruktofuranoza. Ona je analog saharoze koji podleže metabolizmu viših biljki. Turanozu prenose saharozni transporteri u unutrašnjost ćelija, gde se koristi za intracelularnu ugljeno hidratnu signalizaciju. Osim te uloge, D-(+)-turanozu koriste kao izvor ugljenika mnogi organizmi, uključujući brojne vrste bakterija i gljiva.^[5]^[6]^[7]^[8]

Reference

↑ Turanose - Compound Summary, PubChem
↑ Li Q, Cheng T, Wang Y, Bryant SH (2010). „PubChem as a public resource for drug discovery.”. Drug Discov Today 15 (23-24): 1052-7. DOI:10.1016/j.drudis.2010.10.003. PMID 20970519.
↑ Evan E. Bolton, Yanli Wang, Paul A. Thiessen, Stephen H. Bryant (2008). „Chapter 12 PubChem: Integrated Platform of Small Molecules and Biological Activities”. Annual Reports in Computational Chemistry 4: 217-241. DOI:10.1016/S1574-1400(08)00012-1.
↑ Hettne KM, Williams AJ, van Mulligen EM, Kleinjans J, Tkachenko V, Kors JA. (2010). „Automatic vs. manual curation of a multi-source chemical dictionary: the impact on text mining”. J Cheminform 2 (1): 3. DOI:10.1186/1758-2946-2-3. PMID 20331846.
↑ Sinha, A.K., et al. (2002). „Metabolizable and non-metabolizable sugars activate different signal transduction pathways in tomato”. Plant Physiol 128 (4): 1480–1489. DOI:10.1104/pp.010771. PMC 154275. PMID 11950996.
↑ Gonzali, S., et al. (2005). „A turanose-insensitive mutant suggests a role for WOX5 in auxin homeostasis in Arabidopsis thaliana”. Plant J 44 (4): 633–645. DOI:10.1111/j.1365-313X.2005.02555.x. PMID 16262712.
↑ Sivitz, A.B., et al. (2007). „Arabidopsis sucrose transporter AtSUC9. High-affinity transport activity, intragenic control of expression, and early flowering mutant phenotype”. Plant Physiol 143 (1): 188–198. DOI:10.1104/pp.106.089003. PMC 1761979. PMID 17098854.
↑ Loreti, E., et al. (2000). „Glucose and disaccharide-sensing mechanisms modulate the expression of α-amylase in barley embryos”. Plant Physiol 123 (3): 939–948. DOI:10.1104/pp.123.3.939. PMC 59056. PMID 10889242.

[1] Turanose - Compound Summary, PubChem

[2] Li Q, Cheng T, Wang Y, Bryant SH (2010). „PubChem as a public resource for drug discovery.”. Drug Discov Today 15 (23-24): 1052-7. DOI:10.1016/j.drudis.2010.10.003. PMID 20970519.

[3] Evan E. Bolton, Yanli Wang, Paul A. Thiessen, Stephen H. Bryant (2008). „Chapter 12 PubChem: Integrated Platform of Small Molecules and Biological Activities”. Annual Reports in Computational Chemistry 4: 217-241. DOI:10.1016/S1574-1400(08)00012-1.

[4] Hettne KM, Williams AJ, van Mulligen EM, Kleinjans J, Tkachenko V, Kors JA. (2010). „Automatic vs. manual curation of a multi-source chemical dictionary: the impact on text mining”. J Cheminform 2 (1): 3. DOI:10.1186/1758-2946-2-3. PMID 20331846.

[5] Sinha, A.K., et al. (2002). „Metabolizable and non-metabolizable sugars activate different signal transduction pathways in tomato”. Plant Physiol 128 (4): 1480–1489. DOI:10.1104/pp.010771. PMC 154275. PMID 11950996.

[6] Gonzali, S., et al. (2005). „A turanose-insensitive mutant suggests a role for WOX5 in auxin homeostasis in Arabidopsis thaliana”. Plant J 44 (4): 633–645. DOI:10.1111/j.1365-313X.2005.02555.x. PMID 16262712.

[7] Sivitz, A.B., et al. (2007). „Arabidopsis sucrose transporter AtSUC9. High-affinity transport activity, intragenic control of expression, and early flowering mutant phenotype”. Plant Physiol 143 (1): 188–198. DOI:10.1104/pp.106.089003. PMC 1761979. PMID 17098854.

[8] Loreti, E., et al. (2000). „Glucose and disaccharide-sensing mechanisms modulate the expression of α-amylase in barley embryos”. Plant Physiol 123 (3): 939–948. DOI:10.1104/pp.123.3.939. PMC 59056. PMID 10889242.

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