"
Team:Tokyo Tech/Project/Apple Reporter/Results
From 2010.igem.org
(→Results) |
|||
| Line 36: | Line 36: | ||
[http://en.wikipedia.org/wiki/Beta-Carotene →more information about β-carotene] | [http://en.wikipedia.org/wiki/Beta-Carotene →more information about β-carotene] | ||
| - | Our team synthesized β-carotene under several conditions to confirm the activity of BioBrick parts designed by Cambredge 2009. | + | Our team synthesized β-carotene under several conditions to confirm the activity of BioBrick parts designed by Cambredge 2009. |
We used ''crtEBIY'' (BBa_K274210) to synthesize β-carotene. We compared the plasmids containing pSB3K3 (low-copy vector) with the plasmids containing pSB1A2 (high-copy vector) from the production. We also introduced the low-copy plasmid into ''E. Coli'' strain MG1655, JM109 and DH5α respectively. | We used ''crtEBIY'' (BBa_K274210) to synthesize β-carotene. We compared the plasmids containing pSB3K3 (low-copy vector) with the plasmids containing pSB1A2 (high-copy vector) from the production. We also introduced the low-copy plasmid into ''E. Coli'' strain MG1655, JM109 and DH5α respectively. | ||
| Line 92: | Line 92: | ||
Our team synthesized zeaxanthin by several kinds of construct to confirm the activity of BioBrick parts designed by Cambredge 2009 and Edinburgh 2007. By assembling the ''crtZ'', ''crtEBIY'' and appropriate promoters, we constructed new BioBrick parts to synthesize zeaxanthin and compared their function . | Our team synthesized zeaxanthin by several kinds of construct to confirm the activity of BioBrick parts designed by Cambredge 2009 and Edinburgh 2007. By assembling the ''crtZ'', ''crtEBIY'' and appropriate promoters, we constructed new BioBrick parts to synthesize zeaxanthin and compared their function . | ||
(→[http://partsregistry.org/wiki/index.php?title=Part:BBa_K395701 BBa_K395701], [http://partsregistry.org/wiki/index.php?title=Part:BBa_K395702 BBa_K395702], [http://partsregistry.org/wiki/index.php?title=Part:BBa_K395704 BBa_K395704]) | (→[http://partsregistry.org/wiki/index.php?title=Part:BBa_K395701 BBa_K395701], [http://partsregistry.org/wiki/index.php?title=Part:BBa_K395702 BBa_K395702], [http://partsregistry.org/wiki/index.php?title=Part:BBa_K395704 BBa_K395704]) | ||
| - | We constructed two types of zeaxanthin synthetic construct. | + | We constructed two types of zeaxanthin synthetic construct. |
One is that ''crtZ''(BBa_I742158) and ''crtEBIY''(BBa_K274210) were assembled on a single plasmid.(We call this construct “single plasmid construct”.) | One is that ''crtZ''(BBa_I742158) and ''crtEBIY''(BBa_K274210) were assembled on a single plasmid.(We call this construct “single plasmid construct”.) | ||
| Line 121: | Line 121: | ||
[[→more information about astaxanthin]] | [[→more information about astaxanthin]] | ||
| - | Our team synthesized astaxanthin to make the pathway reach the end by assembling ''crtW'' and zeaxanthin synthesis constructs. After constructing new BioBrick parts to synthesize astaxanthin we compared their function. (→[http://partsregistry.org/wiki/index.php?title=Part:BBa_K395706 BBa_K395706]), We also examine the production controlled by activity of pBad/araC promoter. | + | Our team synthesized astaxanthin to make the pathway reach the end by assembling ''crtW'' and zeaxanthin synthesis constructs. After constructing new BioBrick parts to synthesize astaxanthin we compared their function. (→[http://partsregistry.org/wiki/index.php?title=Part:BBa_K395706 BBa_K395706]), We also examine the production controlled by activity of pBad/araC promoter. |
| + | |||
| Line 142: | Line 143: | ||
===Separation of carotenoids with TLC=== | ===Separation of carotenoids with TLC=== | ||
| - | We performed thin layer chromatography (TLC) to confirm the products of β-carotene, zeaxanthin, astaxanthin were synthesized. | + | We performed thin layer chromatography (TLC) to confirm the products of β-carotene, zeaxanthin, astaxanthin were synthesized. |
The lanes are ①control(FPP), ②β-carotene, ③zeaxanthin, ④astaxanthin from the left. We can tell ②,③ and ④ are yellow-orange, golden-yellow and red-orange pigment, respectively. These results are consistent with the Rf and color of β-carotene, zeaxanthin, astaxanthin respectively and indicated that target products were synthesized as expected. [Reference: Carotenoids in crabs from marine and fresh waters of India ] | The lanes are ①control(FPP), ②β-carotene, ③zeaxanthin, ④astaxanthin from the left. We can tell ②,③ and ④ are yellow-orange, golden-yellow and red-orange pigment, respectively. These results are consistent with the Rf and color of β-carotene, zeaxanthin, astaxanthin respectively and indicated that target products were synthesized as expected. [Reference: Carotenoids in crabs from marine and fresh waters of India ] | ||
Revision as of 09:39, 27 October 2010
Contents |
Results
β-carotene synthesis
[http://en.wikipedia.org/wiki/Beta-Carotene →more information about β-carotene]
Our team synthesized β-carotene under several conditions to confirm the activity of BioBrick parts designed by Cambredge 2009.
We used crtEBIY (BBa_K274210) to synthesize β-carotene. We compared the plasmids containing pSB3K3 (low-copy vector) with the plasmids containing pSB1A2 (high-copy vector) from the production. We also introduced the low-copy plasmid into E. Coli strain MG1655, JM109 and DH5α respectively.
We found that MG1655 and JM109 produce more β-carotene than DH5α in liquid culture and that MG1655 grow better than JM109 on plate culture. These results indicated that MG1655 is the best of the three strains to treat. For this reason, we decided to use only MG1655 to extract pigment.
We also made special competent cell, MG1655 and JM109, having a plasmid crtEBIY; pSB1A2 or crtEBIY; pSB3K3) for zeaxanthin and astaxanthin synthesis.(→figure1, figure2)
~acetone extract~
→protocol
zeaxanthin synthesis
→more information about zeaxanthin
Our team synthesized zeaxanthin by several kinds of construct to confirm the activity of BioBrick parts designed by Cambredge 2009 and Edinburgh 2007. By assembling the crtZ, crtEBIY and appropriate promoters, we constructed new BioBrick parts to synthesize zeaxanthin and compared their function . (→[http://partsregistry.org/wiki/index.php?title=Part:BBa_K395701 BBa_K395701], [http://partsregistry.org/wiki/index.php?title=Part:BBa_K395702 BBa_K395702], [http://partsregistry.org/wiki/index.php?title=Part:BBa_K395704 BBa_K395704]) We constructed two types of zeaxanthin synthetic construct.
One is that crtZ(BBa_I742158) and crtEBIY(BBa_K274210) were assembled on a single plasmid.(We call this construct “single plasmid construct”.) The other is that crtZ and crtEBIYwere assembled on different plasmids.(we call this type of constructs “double plasmids construct”.) We made 5 combinations shown in table<1>.
Constructs containing pBad/araC promoter on high-copy vector show the best pruduction and double plasmids construct shows as much pruduction as single plasmid construct under same promoter conbination. Construct with pBad/araC promoter shows better production than that with plac promoter. Construct that crtEBIY on high-copy vector and crtZ on low-copy vector shows as much expression as construct that crtEBIY on low-copy vector and crtZ on high-copy vector.(Actually, ③ showed a little more production than ⑤.)
From the result, we decided to use pBad/araC promoter and double plasmids construct.
astaxanthin synthesis
→more information about astaxanthin
Our team synthesized astaxanthin to make the pathway reach the end by assembling crtW and zeaxanthin synthesis constructs. After constructing new BioBrick parts to synthesize astaxanthin we compared their function. (→[http://partsregistry.org/wiki/index.php?title=Part:BBa_K395706 BBa_K395706]), We also examine the production controlled by activity of pBad/araC promoter.
The activity of this promoter is measured in detail on another page. →click
We made 4 combinations shown in table<2>
~acetone extract and vacuum concentration~ →protocol
Separation of carotenoids with TLC
We performed thin layer chromatography (TLC) to confirm the products of β-carotene, zeaxanthin, astaxanthin were synthesized.
The lanes are ①control(FPP), ②β-carotene, ③zeaxanthin, ④astaxanthin from the left. We can tell ②,③ and ④ are yellow-orange, golden-yellow and red-orange pigment, respectively. These results are consistent with the Rf and color of β-carotene, zeaxanthin, astaxanthin respectively and indicated that target products were synthesized as expected. [Reference: Carotenoids in crabs from marine and fresh waters of India ]
β-carotene and zeaxanthin
astaxanthin
Not only astaxanthin but also another pigments were priduced at Ⅱ.
We regarded them as intermediary metabolites between zeaxanthin and astaxanthin.
