Difference between revisions of "Part:BBa K2617000"
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<partinfo>BBa_K2617000 short</partinfo> | <partinfo>BBa_K2617000 short</partinfo> | ||
− | Xyn10D-fae1A is a bifunctional enzyme, which has the activity of ferulic esterase and xylanase. Feruloyl esterase can hydrolyze ferulic acid ester groups, which are responsible for attaching in complex cellular cell wall structures. Xylanase can hydrolyze plant cell wall component xylan | + | Xyn10D-fae1A is a bifunctional enzyme, which has the activity of ferulic esterase and xylanase. Feruloyl esterase can hydrolyze ferulic acid ester groups, which are responsible for attaching in complex cellular cell wall structures. Xylanase can hydrolyze plant cell wall component xylan. This part is responsible for pretreatment of straw. |
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===Detection of ferulic acid=== | ===Detection of ferulic acid=== | ||
− | To detect the expression of Xyn10D-Fae1A gene, we converted carrying Xyn10D-Fae1A gene to co-culture with straw culture medium. Gas chromatography was used to detect ferulic acid. The ferulic acid production was monitored by periodically taking samples from the fermentation liquid of E. coli BL21(DE3) carrying Xyn10D-Fae1A gene. | + | To detect the expression of Xyn10D-Fae1A gene(piGEM2018-Module001), we converted carrying Xyn10D-Fae1A gene to co-culture with straw culture medium. Gas chromatography was used to detect ferulic acid [1]. The ferulic acid production was monitored by periodically taking samples from the fermentation liquid of E. coli BL21(DE3) carrying Xyn10D-Fae1A gene. |
GC results showed that the peak of ferulic acid was appeared after fermentation for 24h with the strain carrying Xyn10D-Fae1A gene, while no ferulic acid was detected in the sample of E. coli BL21(DE3) without vector (Fig. 1). | GC results showed that the peak of ferulic acid was appeared after fermentation for 24h with the strain carrying Xyn10D-Fae1A gene, while no ferulic acid was detected in the sample of E. coli BL21(DE3) without vector (Fig. 1). | ||
[[File:T--UESTC-China--detection of ferulic acid.png|500px|thumb|center|'''Fig. 1''' The production of ferulic acid determined using GC. The supernatants of fermented liquid of E. coli BL21(DE3) with or without Xyn10D-Fae1A gene were used for the determination of ferulic acid, respectively. Samples were taken from reaction mixtureat 0h, 24h.]] | [[File:T--UESTC-China--detection of ferulic acid.png|500px|thumb|center|'''Fig. 1''' The production of ferulic acid determined using GC. The supernatants of fermented liquid of E. coli BL21(DE3) with or without Xyn10D-Fae1A gene were used for the determination of ferulic acid, respectively. Samples were taken from reaction mixtureat 0h, 24h.]] | ||
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===Enzyme activity of xylanase=== | ===Enzyme activity of xylanase=== | ||
+ | Xylanase can decompose xylan to xylose. Comparing with wild type,our E. coli carrying Xyn10D-Fae1A gene take effect [2] (Fig. 3). | ||
− | |||
[[File:T--UESTC-China-xylanase activity.png|500px|thumb|center|'''Fig. 3''' Xylanase Activity on Xylan. Data were measured inphosphate buffer solution at pH 6.0 and 40℃.]] | [[File:T--UESTC-China-xylanase activity.png|500px|thumb|center|'''Fig. 3''' Xylanase Activity on Xylan. Data were measured inphosphate buffer solution at pH 6.0 and 40℃.]] | ||
− | ===Enzyme activity of | + | ===Enzyme activity of ferulic acid esterase=== |
− | Ferulic acid esterase can decompose | + | Ferulic acid esterase can decompose 4-nitrophenyl trans-ferulate to produce p-nitrophenol and ferulic acid. We used crude extract fraction of strain to detect enzyme activity [3]. |
− | + | ||
[[File:T--UESTC-China--Enzyme Activity of Ferulic acid esterase.png|500px|thumb|center|'''Fig. 4''' Enzyme Activity of Ferulic acid esterase. Data were measured in phosphate buffer solution at pH 6.4 and 40℃.]] | [[File:T--UESTC-China--Enzyme Activity of Ferulic acid esterase.png|500px|thumb|center|'''Fig. 4''' Enzyme Activity of Ferulic acid esterase. Data were measured in phosphate buffer solution at pH 6.4 and 40℃.]] | ||
− | The results showed that the ferulic acid enzyme activity of our strain was much higher than that of the wild type. | + | The results (Fig. 4) showed that the ferulic acid enzyme activity of our strain was much higher than that of the wild type. |
+ | |||
+ | ===References=== | ||
+ | [1] Qiu-Yi, L. I., Gan, G. P., Wang, G. Z., & Liu, Y. W. (2007). Determination of ferulic acid in ligusticum chuanxiong hort. oil by gc. Lishizhen Medicine & Materia Medica Research. | ||
+ | |||
+ | [2] Shen C, Li R, Hu T & Yan K. 2011. Determination of xylanase activity with DNS method. Dyeing & Finishing, 2: 35-39. | ||
+ | |||
+ | [3] Zhang S, Pei X & Wu Z. 2009. Cloning and expression of feruloyl esterase A from Aspergillus niger, and establishment of fast activity detection methods. Chinese Journal of Applied & Environmental Biology, 2: 276-279. | ||
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===Functional Parameters=== | ===Functional Parameters=== | ||
<partinfo>BBa_K2617000 parameters</partinfo> | <partinfo>BBa_K2617000 parameters</partinfo> | ||
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Latest revision as of 11:09, 17 October 2018
Xyn10D-Fae1A:Bifunctional xylanase/ferulic acid esterase
Xyn10D-fae1A is a bifunctional enzyme, which has the activity of ferulic esterase and xylanase. Feruloyl esterase can hydrolyze ferulic acid ester groups, which are responsible for attaching in complex cellular cell wall structures. Xylanase can hydrolyze plant cell wall component xylan. This part is responsible for pretreatment of straw.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 534
Illegal AgeI site found at 381
Illegal AgeI site found at 628 - 1000INCOMPATIBLE WITH RFC[1000]Illegal SapI.rc site found at 1236
Characterization
Molecular weight
This gene codes for a protein of 726 amino acids with a molecular mass of 82.3 kDa.
Detection of ferulic acid
To detect the expression of Xyn10D-Fae1A gene(piGEM2018-Module001), we converted carrying Xyn10D-Fae1A gene to co-culture with straw culture medium. Gas chromatography was used to detect ferulic acid [1]. The ferulic acid production was monitored by periodically taking samples from the fermentation liquid of E. coli BL21(DE3) carrying Xyn10D-Fae1A gene. GC results showed that the peak of ferulic acid was appeared after fermentation for 24h with the strain carrying Xyn10D-Fae1A gene, while no ferulic acid was detected in the sample of E. coli BL21(DE3) without vector (Fig. 1).
The ferulic acid peak was further analyzed by using GC-MS (Fig. 2).
Enzyme activity of xylanase
Xylanase can decompose xylan to xylose. Comparing with wild type,our E. coli carrying Xyn10D-Fae1A gene take effect [2] (Fig. 3).
Enzyme activity of ferulic acid esterase
Ferulic acid esterase can decompose 4-nitrophenyl trans-ferulate to produce p-nitrophenol and ferulic acid. We used crude extract fraction of strain to detect enzyme activity [3].
The results (Fig. 4) showed that the ferulic acid enzyme activity of our strain was much higher than that of the wild type.
References
[1] Qiu-Yi, L. I., Gan, G. P., Wang, G. Z., & Liu, Y. W. (2007). Determination of ferulic acid in ligusticum chuanxiong hort. oil by gc. Lishizhen Medicine & Materia Medica Research.
[2] Shen C, Li R, Hu T & Yan K. 2011. Determination of xylanase activity with DNS method. Dyeing & Finishing, 2: 35-39.
[3] Zhang S, Pei X & Wu Z. 2009. Cloning and expression of feruloyl esterase A from Aspergillus niger, and establishment of fast activity detection methods. Chinese Journal of Applied & Environmental Biology, 2: 276-279.