Presentation is loading. Please wait.

Presentation is loading. Please wait.

YSD: Engineering Molecular Interactions Target protein is on the surface – biophysical characterization of binding by flow cytometry High-throughput &

Published byJack Green Modified over 8 years ago

Similar presentations

Presentation on theme: "YSD: Engineering Molecular Interactions Target protein is on the surface – biophysical characterization of binding by flow cytometry High-throughput &"— Presentation transcript:

1 YSD: Engineering Molecular Interactions Target protein is on the surface – biophysical characterization of binding by flow cytometry High-throughput & versatile molecular biology applications Target protein is not exposed to host genome; toxic intermediate states allowed

2 YSD of I-Ani1: Analysis of Binding Affinity & Cleavage dsOligo ssOligo Cleaved dsOligo TGAGGAGGTTTCTCTGTAA TGAGAAGGTTTCTCTGTAA K D WT = 80nM [dsAni WT] in nM Epitope-Normalized MFI K D -6A = 2  M

3 1.Jim Havranek: Computational redesign of STS1 & 2 2.Strategy to generate a YSD library of Jim’s designs 3.Screen for variants that bind the  c (“SCID”) sequence 4.Specificity profiling and cleavage analysis 5.Optimization (epPCR) &/or iteration Strategy for Generating a  c -specific variant of I-Ani1 WT = TGAGGAGGTTTCTCTGTAA  c = AAGGAAGGCTTCTCTGTAA -10-9-8-7-6-5-4-3-2-1 1 2 3 4 5 6 7 8 9

4 160 designs

5 GGATGGAGCCTTTRHTATCAGGAAGCAGGGCAAGARATTGCAGTATGATTTATACATTGAGCTGAGCA = STS1: 80 oligos = 350 variants TATTGGCATCGTAGAATTCAGGAAGAGAAACGAGATTGAAATGGTTGMATTGARSATCAVSGATAAGAATCAT = STS2: 75 oligos = 250 variants Lib Size: 80,000 (STS1 x STS2) Strategy for Generating a Large YSD Library of Designed HEs WT = TGAGGAGGTTTCTCTGTAA  c = AAGGAAGGCTTCTCTGTAA

6 STS1 PCRSTS2 PCR Myc-FITC HA-APC Sorted for JH160 STS1+STS2 lib 1.0.B1 Sorted: Lib 1.0.B1A2 + Galactose Sorting STS1/2 Library: 1) Expression; 2) Binding; 3) Specificity Sorted: Lib 1.0.B1A1

7 JH160 Lib1.0.B1A2 (WT background)JH160 Lib2.0.B1A2 (Y2 background) F13Y

8 Analysis of Specificity of Individual Clones WT cc dsOligo ssOligo Cleaved

9 Employing Counter-selective Sorting to Isolate Specific Binders Pool of high-affinity (non-selective) variants WT Oligo-AF647 SCID Oligo-PE Anti-Myc-FITCepPCR + combo library

10 Round 1Round 2Round 3 SCID oligo MycWT oligo SCID oligo MycWT oligo SCID oligo MycWT oligo SCID oligo MycWT oligo SCID oligo MycWT oligo SCID oligo MycWT oligo Because I always remake my libraries on the WT enzyme background, there’s always a bit of contamination with yeast that have recombined back in the WT sequence that was cut out…this actually serves as a good internal control for what a specific enzyme should look like WT background Y2+L156R background

11

12 Does Direct Readout Mediate all of the Binding Specificity of NTD? What’s different between the NTD and CTD of I-Ani1?

13 Does Direct Readout Mediate all of the Binding Specificity of NTD?

14 What Control’s the Specificity at the NTD of I-Ani1? D73

15 D73G: Reduced Specificity of NTD WT D73G -10-9-8-7-6-5-4-3 +4+3+6+5+7+9+8

16 Protein-Protein vs. Protein-DNA Interactions N 20 N 20 N 20 N 4 +/- hydrophobic polar - only CH 3 or CH polar Rotamers  G = 0 Rigid  G > 0 DNA surfaces exhibit much less structural and electrochemical diversity / A 2  G (specific vs. non-specific) is lower in DNA-protein interactions For protein-DNA interactions: specificity is not a simple function of affinity…

17

18 Barcoding Yeast for Parallel Analysis of Variant HEs Alexa-647 Alexa-350 [dsOligo] Epitope-Normalized MFI Myc-FITC dsOligo-PE

19 Overview 1.DNA-protein interactions 2.Yeast surface display of I-Ani1 3.Hypothesis-driven studies on specificity 4.Engineering novel DNA-protein interactions

Download ppt "YSD: Engineering Molecular Interactions Target protein is on the surface – biophysical characterization of binding by flow cytometry High-throughput &"

Similar presentations

Recombinant DNA Technology

Recombinant DNA Technology
Yupeng. Yeast surface Aga1p s s s s Aga2p I-AniI Myc 3’-ACTCCTCCAAAGAGACATT 5’-TGAGGAGGTTTCTCTGTAA Biotin Ani-wt: T G A G G A G G T T T C T C T G T A.

Yupeng. Yeast surface Aga1p s s s s Aga2p I-AniI Myc 3’-ACTCCTCCAAAGAGACATT 5’-TGAGGAGGTTTCTCTGTAA Biotin Ani-wt: T G A G G A G G T T T C T C T G T A.
Systematic Evolution of Ligands by Exponential Enrichment: RNA Ligands to Bacteriophage T4 DNA Polymerase CRAIG TUERK AND LARRY GOLD.

Systematic Evolution of Ligands by Exponential Enrichment: RNA Ligands to Bacteriophage T4 DNA Polymerase CRAIG TUERK AND LARRY GOLD.
Recombinant DNA Technology

Recombinant DNA Technology
Biology Mathematics Engineering Optics Physics Robotics Informatics.

Biology Mathematics Engineering Optics Physics Robotics Informatics.
D ISCOVERING REGULATORY AND SIGNALLING CIRCUITS IN MOLECULAR INTERACTION NETWORK Ideker Bioinformatics 2002 Presented by: Omrit Zemach April 3 2013 Seminar.

D ISCOVERING REGULATORY AND SIGNALLING CIRCUITS IN MOLECULAR INTERACTION NETWORK Ideker Bioinformatics 2002 Presented by: Omrit Zemach April Seminar.
Putting biology to work for you: In vitro (directed) evolution and other techniques.

Putting biology to work for you: In vitro (directed) evolution and other techniques.
Bacterial Transformation

Bacterial Transformation
Selection of XID(Btk) site specific I-AniI variant for gene repair in hematopoietic stem cells Yupeng Wang Rawlings Lab Center for Immunity and Immunotherapy.

Selection of XID(Btk) site specific I-AniI variant for gene repair in hematopoietic stem cells Yupeng Wang Rawlings Lab Center for Immunity and Immunotherapy.
9 Genomics and Beyond Brief Chapter Outline

9 Genomics and Beyond Brief Chapter Outline
Phage Display and its Applications Matt Brown Human Genetics Dr. Nancy Bachman.

Phage Display and its Applications Matt Brown Human Genetics Dr. Nancy Bachman.
Genetic Engineering Biotechnology Molecular Cloning Recombinant DNA.

Genetic Engineering Biotechnology Molecular Cloning Recombinant DNA.
MCB 7200: Molecular Biology

MCB 7200: Molecular Biology
William S. Klug Michael R. Cummings Charlotte A. Spencer Concepts of Genetics Eighth Edition Chapter 19 Recombinant DNA Technology Copyright © 2006 Pearson.

William S. Klug Michael R. Cummings Charlotte A. Spencer Concepts of Genetics Eighth Edition Chapter 19 Recombinant DNA Technology Copyright © 2006 Pearson.
Tasha A. Desai, Dmitry A. Rodionov, Mikhail S. Gelfand, Eric J. Alm, and Christopher V. Rao 1 Alvin Chen 20.385 April 14, 2010.

Tasha A. Desai, Dmitry A. Rodionov, Mikhail S. Gelfand, Eric J. Alm, and Christopher V. Rao 1 Alvin Chen April 14, 2010.
Definitions: 1. Genetic engineering- remaking genes for practical purposes 2. Recombinant DNA- DNA made from two or more different organisms 3. Restriction.

Definitions: 1. Genetic engineering- remaking genes for practical purposes 2. Recombinant DNA- DNA made from two or more different organisms 3. Restriction.
Trends in Biotechnology

Trends in Biotechnology
歐亞書局 PRINCIPLES OF BIOCHEMISTRY Chapter 9 DNA-Based Information Technologies.

歐亞書局 PRINCIPLES OF BIOCHEMISTRY Chapter 9 DNA-Based Information Technologies.
Mapping protein-DNA interactions by ChIP-seq Zsolt Szilagyi Institute of Biomedicine.

Mapping protein-DNA interactions by ChIP-seq Zsolt Szilagyi Institute of Biomedicine.
Scharenberg Lab Technical update on yeast display (Hoku/Jordan) –Overhang length can influence binding (see meeting notes) –Half sites can be interrogated.

Scharenberg Lab Technical update on yeast display (Hoku/Jordan) –Overhang length can influence binding (see meeting notes) –Half sites can be interrogated.

Similar presentations

Ads by Google