Difference between revisions of "Part:BBa K2560007"

Latest revision as of 22:07, 16 October 2018

Phytobrick version of BBa_J23100

This is the Phytobrick version of the promoter BBa_J23100 and was build as a part of the Marburg Collection. Instructions of how to use the Marburg Collection are provided at the bottom of the page.

Overview

Promoters are genetic modules were the RNA polymerase is recruited to start RNA transcription. They are divided in two groups: constitutive promoters which transcribe RNA permanently and inducible promoters which start the transcription as a response to a stimulus. Inducible promoters can be regulated by transcription activation or repression. To start the RNA transcription the RNA polymerase complex is not sufficient. Therefore sigma70 factors are required. The sigma70 factor binds to the Pribnow box – two motifs -10 and -35bp upstream the CDS – recruiting the RNA transcrition complex enabling the transcription (Huerta and Collado, 2003), ( Paget and Helmann, 2003). Based on this knowledge a collection of synthetic constitutive promoters have been developed by Chris Anderson and made available on the iGEM repository.

Characterization

 Variant Lux (au)
 
 K2560131 (Dummy)    0.025
 K2560019 (J23103)   0.032
 K2560026 (J23113)   0,038
 K2560023 (J23109)   0,052
 K2560009 (J23104)   0,058
 K2560029 (J23117)   0,090
 K2560025 (J23111)   0,098
 K2560028 (J23116)   0,134
 K2560021 (J23107)   0,136
 K2560027 (J23114)   0,163
 K2560024 (J23110)   0,169
 K2560018 (J23102)   0,245
 K2560030 (J23118)   0,348
 K2560020 (J23105)   0,387
 K2560015 (J23115)   0,398
 K2560014 (J23106)   0,502
 K2560017 (J23101)   0,510
 K2560022 (J23108)   0,768
 K2560007 (J23100)   1

We started by measuring the promoter strength of the Anderson Promoter library in V. natriegens. Firstly, we assembled 19 test plasmids with golden-gate-assembly and measured their expression strength, following our selfmade workflows. The results are shown in Figure 1. We observed an even distribution of the tested promoters throughout the dynamic range. The strongest promoter K2560007 (J23100) yielded 40 fold stronger signal than the promoter dummy and was used as a reference to calculate relative promoter strengths.
The test constructs were built with dummy connectors which did not possess insulator elements. We assume that this resulted in additional expression caused by transcription throughout the rest of the plasmid, e.g. ori and antibiotic resistance. This is thought to add the same extent of signal to all measured promoters thus reducing the overall dynamic range. To further evaluate this assumption, we could repeat this experiment with one of our insulators instead of the dummy connector.

Figure 1: Relative promoter strenghts of promoters from the Anderson Collection in Vibrio natriegens.
The promoter test construct is shown in Figure 2. Contruct were messured in quadruplicates and in three indipendent experiments.

Figure 2: Contruct for messuring promoter strenghts.
The label "Tested Promoters" is a place holder for the respective promoter. The plasmid was assembled from eight basic parts by Golden Gate Assembly.

Usage and Biology

Marburg 2018 characterized this part in Vibrio natriegens using the lux operon of Photorhabdus luminescens (BBa_K2560051). The parts sequence was verified by Sanger sequencing.

Sequence and Features

Marburg Toolbox

We proudly present the Marburg Collection, a novel golden-gate-based toolbox containing various parts that are compatible with the PhytoBrick system and MoClo. Compared to other bacterial toolboxes, the Marburg Collection shines with superior flexibility. We overcame the rigid paradigm of plasmid construction - thinking in fixed backbone and insert categories - by achieving complete de novo assembly of plasmids.

36 connectors facilitate flexible cloning of multigene constructs and even allow for the inversion of individual transcription units. Additionally, our connectors function as insulators to avoid undesired crosstalk.

The Marburg Collection contains 123 parts in total, including:
inducible promoters, reporters, fluorescence and epitope tags, oris, resistance cassettes and genome engineering tools. To increase the value of the Marburg Collection, we additionally provide detailed experimental characterization for V. natriegens and a supportive software. We aspire availability of our toolbox for future iGEM teams to empower accelerated progression in their ambitious projects.

Figure 3: Hierarchical cloning is facilitated by subsequent Golden Gate reactions.
Basic building blocks like promoters or terminators are stored in level 0 plasmids. Parts from each category of our collection can be chosen to built level 1 plasmids harboring a single transcription unit. Up to five transcription units can be assembled into a level 2 plasmid.

Figure 4: Additional bases and fusion sites ensure correct spacing and allow tags.
Between some parts, additional base pairs were integrated to ensure correct spacing and to maintain the triplet code. We expanded our toolbox by providing N- and C- terminal tags by creating novel fusions and splitting the CDS and terminator part, respectively.

Parts of the Marburg Toolbox

• K2560011 (5'Connector Dummy)
• K2560055
  (1-6
  Connector)
• K2560065 (5'Con1)
• K2560066 (5'Con2)
• K2560067 (5'Con3)
• K2560068 (5'Con4)
• K2560069 (5'Con5)
• K2560075 (5'Con1
  Short Res)
• K2560076 (5'Con2
  Short)
• K2560077 (5'Con3
  Short)
• K2560078 (5'Con4
  Short)
• K2560079 (5'Con5
  Short)
• K2560095 (5'Con1 inv)
• K2560096 (5'Con2 inv)
• K2560097 (5'Con3 inv)
• K2560098 (5'Con4 inv)
• K2560099 (5'Con5 inv)
• K2560105 (5'Con5 inv
  Ori)
• K2560107 (5'Con1
  Res)

• K2560007 (J23100)
• K2560009 (J23104)
• K2560014 (J23106)
• K2560015 (J23115)
• K2560017 (J23101)
• K2560018 (J23102)
• K2560019 (J23103)
• K2560020 (J23105)
• K2560021 (J23107)
• K2560022 (J23108)
• K2560023 (J23109)
• K2560024 (J23110)
• K2560025 (J23111)
• K2560026 (J23113)
• K2560027 (J23114)
• K2560028 (J23116)
• K2560029 (J23117)
• K2560030 (J23118)
• K2560031 (J23119)
• K2560123
  (pTet)
• K2560124 (pTrc)
• K2560131 (Promoter Dummy)

• K2560008 (B0034)
• K2560010 (B0032)
• K2560013 (B0031)
• K2560016 (B0030)
• K2560084
  (RBS Dummy)

• K2560033 (E1010)
• K2560041 (E0030)
• K2560042 (sfGFP)
• K2560043 (sfGFP Vn)
• K2560047 (Cas9)
• K2560051
  (Lux Operon)
• K2560054 (dCas9)
• K2560082
  (CDS Dummy)
• K2560114 (LacZ Alpha)
• K2560128 (K660004)
• K2560135
  (SXT Beta)
• K2560268
  (tfox Vc)
• K2560269
  (tfox Vn)
• K2560270
  (SXT)
• K2560272
  (flp recombinase)

• K2560034 (B0010)
• K2560035 (B0015)
• K2560081 (Terminator Dummy)
• K2560089 (B1002)
• K2560091 (B1003)
• K2560093 (B1006)

• K2560012 (3'Connector Dummy)
• K2560070 (3'Con1)
• K2560071 (3'Con2)
• K2560072 (3'Con3)
• K2560073 (3'Con4)
• K2560080 (3'Con5 Ori)
• K2560100 (3'Con1 inv
  Short)
• K2560101 (3'Con2 inv
  Short)
• K2560102 (3'Con3 inv
  Short)
• K2560103 (3'Con4 inv
  Short)
• K2560104 (3'Con5 inv
  Short)
• K2560106 (3'Con1 inv
  Short Res)
• K2560108 (3'Con1 inv)
• K2560109 (3'Con1 inv
  Res)
• K2560110 (3'Con2 inv)
• K2560111 (3'Con3 inv)
• K2560112 (3'Con4 inv)
• K2560113 (3'Con5 inv)

• K2560036 (ColE1)
• K2560037 (pMB1)
• K2560046 (p15A)

• K2560048 (Cam. Res. RFP)
• K2560056
  (Kan. Res. (pSB3K3) RFP)
• K2560057
  (Kan. Res. (pSB3K3) GFP)
• K2560058
  (Tet. Res. (pSB3T5) RFP)
• K2560059
  (Tet. Res. (pSB3T5) GFP)
• K2560125 (Carb. Res. RFP)
• K2560126 (Carb. Res. GFP)
• K2560127 (Carb. Res. into BBa_K2560002)
• K2560132 (Cam. Res. into BBa_K2560002)
• K2560133
  (Kan. Res. into BBa_K2560002)
• K2560134
  (Tet. Res. into BBa_K2560002)

Tags and Entry Vectors

• K2560060 (E1010 4x)
• K2560063 (sfGFP 4x)
• K2560085
  (His-Tag 4x)
• K2560087 (FLAG-Tag 4x)
• K2560129 (K660004 4x)
• K2560257 (Streptag 4x)

• K2560061 (E1010 5a)
• K2560062 (B0015 5b)
• K2560064 (sfGFP 5a)
• K2560086
  (His-Tag 5a)
• K2560088 (FLAG-Tag 5a)
• K2560090 (B1002 5b)
• K2560092 (B1003 5b)
• K2560094 (B1006 5b)
• K2560117 (I11012 5a)
• K2560118 (M0050 5a)
• K2560119 (M0051 5a)
• K2560130 (K660004 5a)
• K2560258 (Streptag 5a)

• K2560001 (Entry Vector with RFP dropout)
• K2560002 (Entry Vector with GFP dropout)
• K2560005 (Resistance Entry Vector with RFP Dropout)
• K2560006 (Resistance Entry Vector with GFP Dropout)
• K2560305 (gRNA Entry Vector with GFP Dropout)