Summer 2021: Difference between revisions

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==Project 2. Design algorithms for vaccines==
==Project 2. Design algorithms for vaccines==
* Participants:
* Participants: Dr Saad Mneimneih (CS Department), Brian
** Dr Saad Mneimneih (CS Department)
** Brian
* Questions & Goals:
* Questions & Goals:
** Generalized algorithms for antigen with arbitrary tree shape
** Generalized algorithms for antigen with arbitrary tree shape

Revision as of 01:59, 4 June 2021

Project 1. Borrelia genomics

Project 2. Design algorithms for vaccines

  • Participants: Dr Saad Mneimneih (CS Department), Brian
  • Questions & Goals:
    • Generalized algorithms for antigen with arbitrary tree shape
      • Data set 1. Neutral evolution (with exponentially distributed branch lengths). Binary strings (L=100 bits) evolved from a coalescent tree of 20 leaves. Simulated with rcoal(20); rTraitDisc(). code from previous work
      • Data set 2. Two major clades. HA sequences from fluB
      • Data set 3. Four major clades. Dengue
      • Data set 4. Star-shaped tree, driven by recombination. OspC
      • Data set 5. Multiple major clades. vls cassette in Lyme species
    • Combination algorithms
    • Naive Bayes models to integrate immunogenicity data
    • Natural language models to improve structural stability (see Project 4 below)
  • Reading list

Project 3. HIV compartmentalized evolution

  • Participants: Lily
  • Questions and goals
    • Do HIV evolve cell type tropisms within the host? Specifically, the Neural(N)-tropism vs T-cell(T)-tropism?
    • Build a classifier of N-tropism HIV subtypes
    • A presentation for an HIV conference in October
  • Reading list
  • Data sets
    • ~500 sequences of env genes from 15 patients
    • 2nd time point single-cell genome sequences for some of the patients
    • Experimentally verified N-tropism subtypes
  • Approach
    • Evolutionary mechanisms: mutation, recombination, and test of adaptive selection
    • Evolutionary rates & signature (BEAST)

Project 4. Natural Language models of proteins

  • Participants: Eamen, Roman, and Edgar
  • Questions & Goals
  1. Learn, implement, and compare the existing tools
  2. Fine-tuning for OspC, to be integrated with the centroid algorithm
  3. 2nd-generation centroid design: k-means algorithm (with applications to vls, Dengue, flu B)