Difference between revisions of "Part:BBa K1416004:Experience"
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===Summary=== | ===Summary=== | ||
− | As working with the fluorescence based screening system established by Team Austin, Texas, we created some data, which may be helpful to other users. Addionally we created a new part, to make the screening system available through the registry of standard biological parts. | + | As working with the fluorescence based screening system established by Team Austin, Texas, we gained experience in cultivation and created some data, which may be helpful to other users. Addionally we created a new part ( [[Part:BBa_K2020040| |
+ | Flourescent reporter for measurement of incorporation of ncAA]] ), to make the screening system available through the registry of standard biological parts. | ||
===Documentation of the improvement=== | ===Documentation of the improvement=== | ||
− | === | + | ===How the reporter plasmid works=== |
− | + | [[File:T--Aachen--pFRY.jpg|200px|thumb|left|<i>Fig 1</i>:Reporter Plasmid]] | |
+ | This reporter plasmid is one of a two plasmids containing screening system for determining efficiancy and fidelty of non-canonical amino acids (ncAA) incorporation via amber termination supression. One plasmid contains tRNA and corresponding aminoacylation-synthetase. The other one is this plasmid presented herein. It consists of am mRFP1 domain which is connected through a linker sequence containing a recoded amber stop codon with a sfGFP domain. The expression of the plasmid gives either a red fluorescence, or - if the ncAA will be incorporated at the recoded amber stop codon within the linker site - both a red and a green fluorescence. | ||
+ | |||
+ | |||
+ | <b>Synthetase and tRNA</b> are constitutivly expressed in a plasmid with low copy replicon p15A, taking into account that expression results in metabolic stress, but are not under IPTG control for he purpose of avoiding abrupt and unpredictable effects considering extra time and energy needed for their assembly. Whereas the <b>reporter plasmid</b> containig two fluorescence proteins, is kept under operon control for IPTG induction likewise on a low copy plasmid with ColE1. | ||
+ | [picture reporter plasmid] | ||
+ | |||
+ | |||
+ | ====Cultivation conditions with High Throughput measurement==== | ||
+ | |||
+ | In order to evolve a new aminoacylation synthetase for DMNBS in E.coli, transforming a mutation library into competent cells the following order works to get a maximum output and equal optical densities: | ||
*<b>Transform</b> into (BL21 DE3 gold + pFRY) on M9 solid, growth: 2 days, 37°C | *<b>Transform</b> into (BL21 DE3 gold + pFRY) on M9 solid, growth: 2 days, 37°C | ||
Line 36: | Line 47: | ||
**For negative screening, supplementation at the beginning: | **For negative screening, supplementation at the beginning: | ||
***Induction with 100 µM IPTG | ***Induction with 100 µM IPTG | ||
+ | |||
+ | It was shown previously, that highest GFP formation is achieved with supplementation of IPTG and the ncAA at the beginning of incubation, but does results in decelerated growth (1). In fact, cultivation of BL21 DE3 gold containing two different plasmids show lower growth rates, when adding 100µM IPTG and 2mM DMNBS to M9 minimal medium, resulting overall in a growth phase of 42-48h at 30°C to reach maximum cell density. | ||
+ | |||
+ | ====Host organism==== | ||
+ | |||
+ | This reporter plasmid and the corresponding measurement of protein formation is previously used in both an amberless E.coli strain and BL21 DE3 gold. The use of the latter is resulting in competion of the supressor tRNA with release factor one at the amber stop codon at the usual 321 amber stop codons. | ||
====Measurement: Wavelength==== | ====Measurement: Wavelength==== | ||
− | |||
− | [[File:T--Aachen-- | + | [[File:T--Aachen--mRFP1 scan.png|200px|thumb|left|<i>Fig 2</i>: normalized fluorescence spectrum of mRFP1]] |
− | ====Measurement: Evaluation==== | + | [[File:T--Aachen--sfGFP scan.png|200px|thumb|left|<i>Fig 3</i>: normalized fluorescence spectrum of sfGFP]] |
+ | |||
+ | As a prescreening setup an endpoint detection of OD and fluorescent intensities with Tecan Plate Reader is chosen. Excitation and emission wavelegthes of mRFP1 and sfGFP were obtained from a previously conducted measurement with a Biolector (<i>Fig 2</i>, <i>Fig 3</i>). For screening with Tecan Plate Reader the following settings were used: | ||
+ | |||
+ | |||
+ | *OD: 600 nm | ||
+ | *sfGFP 480/508 nm | ||
+ | *mRFP1 584/605 nm | ||
+ | *Slid: 8 nm | ||
+ | *30°C | ||
+ | *Shaking in between measurements | ||
+ | |||
+ | |||
+ | For rescreening the same plate reader setup for endpoint detection is used. Additionally an online measurement monitoring sfGFP and mRFP1 formation as well as scattered light at 650nm is used. This is achieved by a screening platform constructed inhouse based on the established Biolector setup. A quartz/quartz multi-mode fibre is moved sequentially below the wells of the microtiter plates and is connected to a spectrophotometer with extinction/emission monochromators (1). This allows quasi-continous and contactless measurements while shaking. | ||
+ | |||
+ | ====Measurement: Example of Evaluation==== | ||
+ | |||
+ | A first approximation of efficiency and fidelity can be made by normalizing GFP levels of the synthetase to be evaluated to a well working synthetase if the levels of optical density are equal. Thus you eliminate the biogenic background fluorescence levels and compare the clones to each other. Refer Fig.4. | ||
+ | |||
+ | [[File:T--Aachen--DMNBS-graph-efficiency.png|200px|thumb|left|<i>Fig 4</i>: Effieciency (dark green) and fidelity (light green) of various DMNBS mutants compared to wild type <i>Mj</i> tyrosyl synthetase]] | ||
+ | |||
+ | |||
+ | |||
+ | ====With the reporter plasmid evaluated synthtases==== | ||
+ | |||
+ | *[[Part:BBa_K2020050|Y-RS, canonical amino acid]] | ||
+ | *[[Part:BBa_K1416000|oNBY-RS]] | ||
+ | *[[Part:BBa_K2020043|AzF-synthetase]] | ||
+ | *[[Part:BBa_K2020046|CN-F synthetase]] | ||
+ | *[[Part:BBa_K1416001|Iodo-Y synthetase]] | ||
+ | *5HT-P synthetase | ||
+ | *[[Part:BBa_K2020045|Nitro-Y synthetase]] | ||
+ | *Amino-Y synthetase | ||
+ | *DMNBS-RS clones: | ||
+ | **[[Part:BBa_K2020052|DMNBS-RS Clone 1]] | ||
+ | **[[Part:BBa_K2020053|DMNBS-RS Clone 2]] | ||
+ | **[[Part:BBa_K2020054|DMNBS-RS Clone 3]] | ||
+ | **[[Part:BBa_K2020055|DMNBS-RS Clone 4]] | ||
+ | **[[Part:BBa_K2020056|DMNBS-RS Clone 5]] | ||
+ | **[[Part:BBa_K2020057|DMNBS-RS Clone 6]] | ||
+ | **[[Part:BBa_K2020058|DMNBS-RS Clone 7]] | ||
+ | **[[Part:BBa_K2020059|DMNBS-RS Clone 8]] | ||
+ | **[[Part:BBa_K2020060|DMNBS-RS Clone 9]] | ||
+ | **[[Part:BBa_K2020061|DMNBS-RS Clone 10]] | ||
+ | *OMe-Y-RS | ||
===Links=== | ===Links=== | ||
+ | *[[Part:BBa_K2020040|Part K2020040 - Flourescent reporter for measurement of incorporation of ncAA]] : Whereas you find hereunder the whole plasmid as a biobrick, we provide the two flourescent proteins connected through the linker sequence as a biobrick for self-assembly in a low copy plasmid. | ||
+ | *[http://2014.igem.org/Team:Austin_Texas/kit Team Austin, Texas 2014 built this measurement kit and probed various synthetases] | ||
+ | *[http://2016.igem.org/Team:Aachen Team Aachen 2016 evolved a new synthetase for incorporation of DMNBS in E.coli] | ||
+ | |||
+ | ===Attributions=== | ||
+ | iGEM Team Austin, Texas: Thanks for making the measurement kit available to us. | ||
+ | |||
+ | ===References=== | ||
+ | 1. Wandrey et al, 2016, Probing unnatural amino acid integration into enhanced green fluorescent protein by genetic code expansion with a high-throughput screening platform | ||
|}; | |}; | ||
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Latest revision as of 20:53, 19 October 2016
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No review score entered. Aachen 2016, Authors: C.Bonerath, A. Hoeltken, V.Czotscher |
SummaryAs working with the fluorescence based screening system established by Team Austin, Texas, we gained experience in cultivation and created some data, which may be helpful to other users. Addionally we created a new part ( Flourescent reporter for measurement of incorporation of ncAA ), to make the screening system available through the registry of standard biological parts. Documentation of the improvementHow the reporter plasmid worksThis reporter plasmid is one of a two plasmids containing screening system for determining efficiancy and fidelty of non-canonical amino acids (ncAA) incorporation via amber termination supression. One plasmid contains tRNA and corresponding aminoacylation-synthetase. The other one is this plasmid presented herein. It consists of am mRFP1 domain which is connected through a linker sequence containing a recoded amber stop codon with a sfGFP domain. The expression of the plasmid gives either a red fluorescence, or - if the ncAA will be incorporated at the recoded amber stop codon within the linker site - both a red and a green fluorescence.
Cultivation conditions with High Throughput measurementIn order to evolve a new aminoacylation synthetase for DMNBS in E.coli, transforming a mutation library into competent cells the following order works to get a maximum output and equal optical densities:
It was shown previously, that highest GFP formation is achieved with supplementation of IPTG and the ncAA at the beginning of incubation, but does results in decelerated growth (1). In fact, cultivation of BL21 DE3 gold containing two different plasmids show lower growth rates, when adding 100µM IPTG and 2mM DMNBS to M9 minimal medium, resulting overall in a growth phase of 42-48h at 30°C to reach maximum cell density. Host organismThis reporter plasmid and the corresponding measurement of protein formation is previously used in both an amberless E.coli strain and BL21 DE3 gold. The use of the latter is resulting in competion of the supressor tRNA with release factor one at the amber stop codon at the usual 321 amber stop codons. Measurement: WavelengthAs a prescreening setup an endpoint detection of OD and fluorescent intensities with Tecan Plate Reader is chosen. Excitation and emission wavelegthes of mRFP1 and sfGFP were obtained from a previously conducted measurement with a Biolector (Fig 2, Fig 3). For screening with Tecan Plate Reader the following settings were used:
Measurement: Example of EvaluationA first approximation of efficiency and fidelity can be made by normalizing GFP levels of the synthetase to be evaluated to a well working synthetase if the levels of optical density are equal. Thus you eliminate the biogenic background fluorescence levels and compare the clones to each other. Refer Fig.4.
With the reporter plasmid evaluated synthtases
Links
AttributionsiGEM Team Austin, Texas: Thanks for making the measurement kit available to us. References1. Wandrey et al, 2016, Probing unnatural amino acid integration into enhanced green fluorescent protein by genetic code expansion with a high-throughput screening platform |
UNIQ9bd84923f66c333b-partinfo-00000002-QINU