Team:IIT Madras/Notebook

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Sept 17

• First meeting of Team:IIT_Madras for iGEM 2015.
• Ideation begins.

May 18-24

May 25-31

• Inventory of all supplies is to be done.
• Alyteserin-1a was chosen to test our model as the structural feature, mechanism of action and other relevent details of anit-microbial peptide Alyteserin-1c, which has two mutations (D4E, N23S), were available in the literature.
• The pdb structure of Alyteserin-1a was generated in pymol, while introducing two mutations D4E and S23N in the pdb structure of Alyteserin-1c.
• The structural features of Alyteserin-1a was analyzed carefully to design a novel peptide which could interact with it.
• Pymol and Pepstr, an online tool, were used to generate a large number of peptide pdb structures of size 10-18 amino acid.
• A software, ZDOCK, was used to assess the docking parameters of Alyteserin-1a and novel peptide.
• Best peforming peptide was chosen to test it's functionality in molecular dynamic simulation.

June 1-7

• Molecul Dynamic Simulation started.
• Made a catalog of all available materials.
• Lactococcus lactis strains, NZ9000 and MG1363, were collected from Prof. KBR's lab.
• MD Simulations finished the proteins were found to interact favourably.

June 8-14

• Started working on the design of genetic circuit.
• One more MD Simulation was performed with the ionic solution of protein complex. MD Simultions showed that naly interacts favorably with Alyteserin forming a cavity of hydrophobic residues.
• Sender is finalised to be E.Coli DH5Alpha, which would constitutively synthesize the AI-2 signaling molecules.
• Receiver is finalised to be Lactococcus lactis NZ9000, which would sense the AI-2 signaling molecules and would behave in the desired way.

June 15-21

• Sequences were finalised for qr1-5 and HFQ.
• Request to iGEM HQ to order extra parts for LuxS, LUXPQUO, Sigma 54, L. lactis constitutive promoter and HFQ.
• MD simulation job in which both peptide were dis-oriented at intial condition was submitted.
• Prepared SOC stock, stored at 4C for autoclaving the next day.
• LB broth, and LB agar was prepared.
• Use of usp45 secretion tag for the secretion of both peptides Alyteserin-1a and NAly.
• In biobrick BBa_K218006, the stop codon for LuxP and the start codon for LuxQ overlap by one base pair.
• Chemical competent cell preparation and transformation over two days. The first transformed batch showed no colonies.

June 22-28

• We started preparation of afresh competent cells. Instead of SOC media, we used only LB broth throughout.
• Agar Stabs for 5 plasmids arrived. We streaked them on agar plates for plasmid isolation on the next day.
• We checked the transformation efficiency using the transformation efficiency kit provided by iGEM. Transformation failed again.
• First plasmid isolation failed with known errors.

June 29- July 5

• The sequence of all parts and primers to fix the problem in biobrick BBa_K218006 via site-directed mutagenesis, were designed and ordered to IDT.
• Preparation of ultra-competent cells. Tranformation efficiency was found out to be overwhelming.

Aug 10-16

• Plasmid isolation was performed for transformed colonies and other biobrickes which were ordered from iGEM.
• Received the gBlocks and primers from IDT. This delay took a lot from us. :(