Coding
NBP3

Part:BBa_K5166002

Designed by: Sihui Liu; Yancheng Zeng; Xiao Han; Zhirong Wang   Group: iGEM24_BIT-China   (2024-09-05)

Nickel-Binding Peptide 3

Usage

Nickel-binding peptide 2 (NBP2) is a nickel-binding peptide. It can bind Ni(II) specificaly. We display it with Pichia pastoris through cell-surface display systems.


Biology

NBP3 is selected from Phage Display Library Screening: The Ph.D.-12 peptide library kit (E8110S, New England Bio Labs, USA). A study has shown that the sorption of nickel ions on the surface of yeast cells increased with the increasing number of nickel Ni(II)-binding peptides displayed. The combined expression of the three peptides(NBP1+NBP2+NBP3) by EBY100/pYD1-N123 demonstrated the highest sorption of Ni(II) (2.603 ± 0.004 g g−1, dry weight) and an enhanced sorption capacity of 60.15%, compared to S. cerevisiae EBY100[1].


Simulation

We used the MLatom calculation program on the XACS platform to perform structural calculations of the binding between metal ion binding peptides and metal ions[2-6], in order to predict the binding ability. In the following video: white is H, gray is C, blue is N, red is O, flesh color is Co, purple is Li, light green is Cl, dark green is Ni.
(1) Sequence
Here we perform machine learning quantum chemistry calculations for the sequence NBP3: SGVYKVAYDASR. Firstly, the geometric structure of the polypeptide chain was optimized, and the folded configuration was obtained, as shown below.
Video Embed

Vid. 1 Structure of NBP3.


(2) Structural analysis of single ion binding
We simulated the binding of a single Ni ion to a folded polypeptide chain. Through structural optimization, we get the following result:
Video Embed

Vid. 2 Structure of NBP3 binding 1 Ni2+.


It can be seen that the atoms coordinating with Ni2+ are mainly carbonyl O and N atom of amine on the polypeptide chain. The Ni2+ ion is encased.
(3) The combination of multiple ions
We designed this metal-binding peptide in the hope that they could trap multiple metal ions and increase efficiency. In order to analyze the binding of multiple Ni2+ ions, three Ni2+ ions were added to the molecular model, and four Cl- ions were added to balance their charge. The total charge of the system was +2. Through structural optimization, we get the following result:
Video Embed

Vid. 4 Structure of NBP3 binding 3 Ni2+.


It can be seen that the N and carbonyl O atoms of higher amines participate in the coordination, the counterion Cl- participates in the coordination, and the counterion also interacts with the H phase on the carbon skeleton, which can regulate the overall charge distribution of the polypeptide chain, regulate the structure of the polypeptide, and stabilize the system. There are also redundant sites that can bind.


Experiments

1.We used Pichia Pastoris GS115 as chassis cell and pGAPZα plasmid to design the display system. By inserting the NBP3 metal-binding peptide gene as the target gene, we obtained the corresponding surface display plasmid.


Fig. 1 Electrophoretic map of plasmids containing MBPs gene.


2.After constructing the plasmid, we introduced it into Escherichia coli for amplification. After amplification, the plasmids were extracted and purified, and sent for sequencing. After obtaining the correct sequencing results, the plasmid was transformed into Pichia pastoris by means of electrical stimulation.


Reference

[1]Li, H., Dong, W., Liu, Y., Zhang, H., & Wang, G. (2019). Enhanced Biosorption of Nickel Ions on Immobilized Surface-Engineered Yeast Using Nickel-Binding Peptides. [Journal Article]. Front Microbiol, 10, 1254. doi: 10.3389/fmicb.2019.01254
[2]Sun, Q., Zhang, X., Banerjee, S., Bao, P., Barbry, M., Blunt, N.,... Chan, G. (2020). Recent developments in the PySCF program package. JOURNAL OF CHEMICAL PHYSICS, 153(2). doi: 10.1063/5.0006074
[3] Sun, Q., Berkelbach, T., Blunt, N., Booth, G., Guo, S., Li, Z.,... Chan, G. (2018). PYSCF: the Python-based simulations of chemistry framework. WILEY INTERDISCIPLINARY REVIEWS-COMPUTATIONAL MOLECULAR SCIENCE, 8(1). doi: 10.1002/wcms.1340
[4] Sun, Q. (2015). Libcint: An efficient general integral library for Gaussian basis functions. JOURNAL OF COMPUTATIONAL CHEMISTRY, 36(22), 1664-1671. doi: 10.1002/jcc.23981
[5] Wang, L., & Song, C. (2022). Geometry optimization made simple with explicit translation and rotation coordinates (vol 144, 214108, 2016). JOURNAL OF CHEMICAL PHYSICS, 157(1). doi: 10.1063/5.0102029
[6]Jmol: an open-source Java viewer for chemical structures in 3D. http://www.jmol.org/


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


[edit]
Categories
//cds
//chassis/eukaryote/yeast
Parameters
None