Part:BBa_K4342019
ACIAD2049 Integration Cassette
Introduction
The 2022 UT Austin iGEM Team’s Part Collection provides a number of DNA sequences and procedures for genetically engineering Acinetobacter baylyi ADP1. We were able to effectively engineer ADP1's genome using a two-step genetic engineering protocol. See the Engineering Page for more details on how we modified ADP1's genome. On this page, we explain how our part collection can be used alongside this two-step protocol to delete ADP1 genes, insert DNA sequences into any chromosomal location, and engineer an ADP1-based biosensor to detect any DNA sequence of interest.
We hope this part collection guides future iGEM teams in engineering ADP1 and utilizing ADP1’s flexibility to tackle any challenge in synthetic biology.
Categorization
For our parts collection, we categorize our parts into the following categories:
Upstream
An Upstream basic part is a DNA sequence directly upstream of a target gene. These basic parts are homology flanks that are used for ADP1 Genetic Engineering. Examples include the ACIAD2049 Upstream for P. destructans detector (BBa_4342003) and pbpG Upstream (BBa_4342011).
Downstream
A Downstream basic part is a DNA sequence directly downstream of a target gene. These basic parts are homology flanks that are used for ADP1 Genetic Engineering. Examples include ACIAD2049 Downstream for P. destructans detector (BBa_4342004) and pbpG Downstream (BBa_4342012).
Integration Cassettes
An "Integration" cassette is a composite part consisting of an "Upstream" basic part, the tdk/kan basic part (BBa_4342000), and a "Downstream" basic part. These parts are designed to use in the first transformation step in ADP1 Genetic Engineering. Examples include the ACIAD2049 Integration cassette (BBa_4342019) and the acrB Integration cassette (BBa_4342023).
Rescue Cassettes
"Rescue" cassette is a composite part consisting of an "Upstream" basic part, an optional genetic device, and a "Downstream" basic part. These parts are designed to use in the second transformation step in ADP1 Genetic Engineering. Examples include the ACIAD2049 Rescue cassette (BBa_4342020, Upstream + Downstream), the YFP Rescue cassette (BBa_4342030, Upstream + Genetic Device + Downstream), and the nptII Detector Rescue cassette (BBa_4342031, Upstream + Composite Part + Downstream).
Genetic Device
"Genetic Device" is a basic part that can be any DNA sequence to be integrated into ADP1. Examples include the CymR YFP (BBa_4342008) and the nptII Broken Gene (BBa_4342015).
We further categorize each part with a standardized Golden Gate Assembly (GGA) Type 1-8 Overhang [2]. Each type is ligated to a complementary type (ex. Type 2 can be ligated to Type 1 and Type 3). Moreover, some parts contain consecutive GGA Type numbers, such as Type 234. These DNA sequences start with a Type 2 Overhang and end with a Type 4 Overhang (ex. tdk/kan cassette (BBa_4342000).
ACIAD2049 Integration is categorized as a Type 1-5 Integration cassette in our part collection.
Usage and Biology
ACIAD2049 is a nonessential gene in Acinetobacter baylyi ADP1 [1]. Knocking out this gene allows for the integration of other DNA sequences in its chromosomal location. Using this part, we demonstrate that ACIAD2049 can be replaced with any DNA construct. Specifically, we have inserted an nptII Broken Gene (BBa_4342015) in place of ACIAD2049 to detect the presence of a Wild-Type nptII gene, showing how ADP1 can be engineered to detect antibiotic resistance.
Design
The ACIAD2049 Integration part comprises the 4194 bp region combining the ACIAD2049 Upstream (BBa_4342001), tdk/kan (BBa_4342000) cassette, and ACIAD2049 Downstream (BBa_4342002) parts.
- Please note that BsaI restriction sites have been removed to meet RFC[1000] BioBrick Assembly Compatibility. To see in-depth primer design, please see Figure 4 on the Engineering Page for more details on how to design primers containing the correct GGA Type Overhang and restriction sites.
Step 1
The ACIAD2049 Integration cassette is designed to allow for successful transformant selection on Kanamycin (Kan) via the kanR gene (Figure 1).
Step 2
The tdk/kan cassette can subsequently be knocked out to create a 4 bp minimal scar deletion of ACIAD2049 via BsmBI digestion. During this reaction, a <ACIAD Rescue cassette (BBa_4342020) is constructed. We use the ACIAD2049 Rescue cassette to select for successful transformants on Azidothymidine (AZT) (Figure 2).
Characterization
To confirm that we successfully created this part, we transformed the ACIAD2049 Integration cassette into ADP1-ISx [3]. We selected for successful transformants on LB-Kan plates and picked colonies to inoculate for second-step removal of the tdk/kan cassette.
References
[1] Suárez, G.A., Dugan, K.R., Renda, B.A., Leonard, S.P., Gangavarapu, L.S., and Barrick, J.E. (2020). Rapid and assured genetic engineering methods applied to Acinetobacter baylyi ADP1 genome streamlining. Nucleic Acids Research 48, 4585–4600. 10.1093/nar/gkaa204.
[2] Lee, M.E., DeLoache, W.C., Cervantes, B., and Dueber, J.E. (2015). A highly characterized yeast toolkit for modular, multipart assembly. ACS synthetic biology 4, 975–986. 10.1021/sb500366v.
[3] Suárez, G. A., Renda, B. A., Dasgupta, A., & Barrick, J. E. (2017). Reduced Mutation Rate and Increased Transformability of Transposon-Free Acinetobacter baylyi ADP1-ISx. Applied and environmental microbiology, 83(17), e01025-17. https://doi.org/10.1128/AEM.01025-17
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