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- ...tW gene encodes a ß-carotene-ketolase that catalyses the conversion of ß-carotene into echinenone and of echinenone into canthaxanthin. ...e production of ß-carotene and the bottom module for the conversion of ß-carotene to canthaxanthin.19 KB (2,724 words) - 08:27, 13 October 2022
- ...tO gene encodes a ß-carotene-ketolase that catalyses the conversion of ß-carotene into echinenone and of echinenone into canthaxanthin. ...e production of ß-carotene and the bottom module for the conversion of ß-carotene to canthaxanthin.19 KB (2,724 words) - 08:26, 13 October 2022
- ...tW gene encodes a ß-carotene-ketolase that catalyses the conversion of ß-carotene into echinenone and of echinenone into canthaxanthin. ...e production of ß-carotene and the bottom module for the conversion of ß-carotene to canthaxanthin.19 KB (2,753 words) - 09:12, 13 October 2022
- ...tO gene encodes a ß-carotene-ketolase that catalyses the conversion of ß-carotene into echinenone and of echinenone into canthaxanthin. ...e production of ß-carotene and the bottom module for the conversion of ß-carotene to canthaxanthin.19 KB (2,753 words) - 09:12, 13 October 2022
- ...tW gene encodes a ß-carotene-ketolase that catalyses the conversion of ß-carotene into echinenone and of echinenone into canthaxanthin. ...e production of ß-carotene and the bottom module for the conversion of ß-carotene to canthaxanthin.19 KB (2,724 words) - 08:27, 13 October 2022
- ...tO gene encodes a ß-carotene-ketolase that catalyses the conversion of ß-carotene into echinenone and of echinenone into canthaxanthin. ...e production of ß-carotene and the bottom module for the conversion of ß-carotene to canthaxanthin.19 KB (2,724 words) - 08:27, 13 October 2022
- This generator expresses a beta-carotene 15,15'-monooxygenase from ''Drosophila melanogaster''. <br><br> '''beta-carotene 15,15'-monooxygenase Data Sheet:'''<br><br>13 KB (1,857 words) - 16:17, 10 May 2013
- We use constitutive promoter to drive the CrtEBIY composite for beta-carotene synthesis. The CrtEBIY composite (BBa_K274210) was obtained from the distri ...nthesis system E. coli (DH5), which contains the part BBa_k419012 (beta-carotene producing genes CrtEBIY with constitutive promoter) in the iGEM 2010 standa5 KB (760 words) - 13:37, 6 November 2010
- This coding region encodes a beta-carotene 15,15'-monooxygenase. =Beta-carotene monooxygenase=10 KB (1,382 words) - 03:33, 28 October 2020
- Enzyme in the pathway required for B-Carotene Synthesis. This enzyme is a combination, it is the full Phytoene Synthase e ...the conversion of Geranylgeranyl diphosphate to Phytoene and Lycopene to B-Carotene.16 KB (2,261 words) - 13:24, 29 September 2024
- === HPLC determination of beta-carotene and retinal production === ...her or not our retinal-generating part actually produces retinal from beta-carotene.<br>9 KB (1,482 words) - 18:29, 5 November 2010
- ...encodes for β-carotene 15,15’-dioxygenase, that cleaves β-carotene into retinal ...yanobacteria and algae) however enzymes involved in the cleavage of β-carotene that use different mechanisms are found in many other organisms.5 KB (663 words) - 23:12, 17 September 2015
- ...-15'dioxygenase that catalizes the cleavege of a single molecule of β-carotene into two molecules of retinal. <html><a href="#fn:1" id="fnref:1" title="se ...ate a colorless molecule naturally produced in <i>E. coli</i>. Once β carotene is synthetized it is cleaved in two molecules of retinal by blh.</p>5 KB (800 words) - 17:12, 18 September 2015
- This device produces β-carotene under the control of an arabinose promoter. This device contains the four genes necessary for β-carotene biosynthesis. <html><a href="#fn:1" id="fnref:1" title="see footnote" class4 KB (541 words) - 17:10, 18 September 2015
- ...obrick converts converts colourless farnesyl pyrophosphate to orange beta-carotene ...f>. Even though the original design here put crt genes order as how β-carotene was produced (crtE → crtB → crtI → crtY), the team failed to9 KB (1,299 words) - 05:35, 13 October 2022
- ...into lycopene through two steps. It is the key factor in the synthesis of carotene from X. dendrorhous. ...struct <i>Saccharomyces cerevisiae</i> (S. cerevisiae) strain with high β-carotene production, we added new composite parts (BBa_K5419002, BBa_K5419007, and B15 KB (2,077 words) - 13:24, 29 September 2024
- ...lgeranylated proteins[3]. Therefore, for the best production yield of 𝛽-carotene production using this biobrick, it is best to use it in synergy with the "G ...<i>et al</i>. 2019. Presumed biosynthetic pathway for the synthesis of β-carotene in <i>X. dendrorhous</i>[5]. The bifunctional lycopene cyclase/phytoene syn14 KB (2,144 words) - 15:05, 25 October 2020
- ...ional goal of this part is to enrich <i>Saccharomyces Cerevisiae</i> in β-carotene.</p> ...is in the cytosol. Fusing CrtYB and CrtI would allow a higher yield of β-carotene production. See “Biology” part to get more details.</p>6 KB (956 words) - 14:56, 22 October 2020
- ...showed that yeast containing the XdCrtYB/XdCrtE/XdCrtI genes had higher β-carotene production. <b>After 72 hours of incubation, the combination could achieve ...-encoded lycopene β-cyclase will catalyze lycopene and eventually form β-carotene. CrtYB gene, on the other hand, encodes a bifunctional gene that functions8 KB (1,069 words) - 03:27, 11 November 2024
- ===UV-Vis determination of beta-carotene and retinal production=== ...ied by UV-vis spectrometry. The spectra can be obtained by harvesting beta-carotene- and retinal-producing cells, re-suspending them in acetone and lysing them4 KB (663 words) - 18:23, 5 November 2010