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Revision as of 11:08, 12 September 2015

NTU-LIHPAO-Taiwan

Design
CPP-PYY
Peptide YY is a short peptide that can restrain our appetite. Because the peptide’s head and tail are both amino acid, tyrosine (Y), it is named peptide YY (PYY). PYY has two forms: PYY 1-36 is the unmodified form, and PYY 3-36 is the kind of PYY cut off two amino acids in N-terminal side by dipeptidyl peptidase-IV.[10] Each contains 60% and 40% of all PYY.
In the situation of PYY binding to the receptors, PYY 1-36’s affinity to Y1, Y2, Y4, and Y5 are all high. However, because PYY 3-36 is cut off two amino acids in N-terminal side causing conformational change, its affinity to Y2 is higher than others.[12] Since both two types of PYY don’t require disulfide bond to stable its structure, it can spontaneously become a stable and activated form in the solution.
PYY is classified as gastrointestinal(GI) hormone. After intestine absorbs micromolecule nutrients, ileum and colon epithelial cells will secret PYY to blood.[13] As PYY transports to hypothalamus by blood circulation and interact with neuropeptide Y receptor (NPY) in ventromedial nuclei, making people full up.
Nisin Selection
(Fig. Promoter-RBS-nisI-Ter)
(Fig. plasmid)
Studies have showed that for nisin resistance, the immunity lipoprotein NisI as well as the ABC transporter-homologous system NisF/E/G is involved. Functional analysis suggests that NisI acts as nisin-intercepting protein, while NisF/E/G complex acts as exporter that expels the unwanted nisin molecules from cytoplasm to the outer environment.[5] Researchers find that NisI seems to play a more crucial role in nisin immunity than the NisF/E/G complex.[6] Through experiments, either of each expressing in the heterologous bacteria is able to protect the host cells.[5] Moreover, the expression of nisI in Lactobacillus plantarum was assessed to be at the same level as in Lactococcus lactis.[6]
The figure above shows our gene circuit for nisin selection. The promoter we chose was pUO19 from Escherichia coli which is also functional in Lactobacillus casei and the gene nisI helps Lactobacillus casei transform from nisin-sensitive into nisin-resistant. The fraction enlarged was latter proceeded ligation with CPP-PYY circuit, enabling the following selection.
Suicide
We introduced the part in the iGEM biobricks, NucA, as our main suicide gene. NucA codes for the mature form of nuclease from Staphylococcus aureus.[6] This secreted enzyme is 5’-phosphodiesterase, which means it can cleave either single- or double-stranded DNA or RNA; therefore, it plays an vital role in the programmed cell death that involves DNA and RNA degradation.[7]
(Fig. promoter-RBS-NucA-Ter)
The problem encountered was that we hope our host cells alive in the product, while want them to die after producing moderate quantities of PYY in human intestines; also, when they are evacuated, back to the outside environment, the suicide gene must be turn on. We later searched the iGEM biobricks and found CI repressor that can bind to its regulated promoter, pCI, to repress the transcription.[8][9]
(Fig. pCI-RBS-NucA-Ter)&(cI)
Now that the suicide gene NucA is inhibited by CI, the amount of CI protein inside the bacteria comes out to be immensely significant. To elaborate, we ought to carefully control the yield of CI produced by Lactobacillus casei ATCC393. The excess can make sure the cells are vigorous so that our main CPP-PYY gene circuit can function properly; on the other hand, the lack will turn on the transcription of thermonuclease which leads to the death of the host cells. To well control the quantity of CI repressor, we introduced the promoter of lac operon of Lactobacillus casei ATCC393 which is regulated by the ratio of lactose and glucose.
(part--alive)
(part--dead)
Reference
[1] Ballantyne, G.H. Peptide YY(1-36) and peptide YY(3-36): Part I. Distribution, release and actions. Obes Surg. 2006; 16:651-8.
[2] Nygaard, R., Nielbo, S., Schwartz, T. W. and Poulsen, F. M. (2006) The PP-Fold Solution Structure of Human Polypeptide YY and Human PYY3-36 As Determined by NMR. Biochemistry, 2006, 45 (27), pp 8350–8357
[3] Batterham, R.L. ,Bloom, S. R. (2002) Gut hormone PYY(3-36) physiologically inhibits food intake. Nature, 418, pp. 650-654.
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