Sami Tanveer | HTGAA 2026

About Me

Pharm.D student exploring the scientific landscape—from mRNA sequencing to drug discovery and clinical applications. A complete beginner, but highly motivated and eager to learn, grow, and contribute to impactful biomedical research.

HTGAA 2026 Progress

Weekly Assignments

• Week 1 HW: Principles and Practices

  Week 1 HW — Principles & Practices Biological Engineering Application & Governance Analysis

1. Biological Engineering Application / Tool Application: I want to develop a bacterial biosensor for rapid detection of antibiotic-resistant pathogens in clinical samples. The biosensor uses engineered E. coli containing genetic circuits that activate fluorescent protein expression when they detect beta-lactamase activity or other resistance markers from nearby bacteria.

• Week 2 — DNA Read, Write, and Edit

  Part 1: Benchling & In-silico Gel Art Purpose This exercise demonstrates applied understanding of restriction enzyme digestion and gel electrophoresis through in-silico modeling. The workflow emphasizes correct experimental logic, lane interpretation, and band pattern analysis using professional bioinformatics tools. Platform and Workflow All simulations were designed and executed using Benchling, a molecular biology platform widely used for DNA analysis, cloning design, and experimental planning. The use of Benchling enabled rapid iteration, accurate restriction mapping, and controlled visualization of gel electrophoresis outcomes.

• HTGAA 2026: Lab Automation & DNA Design

  1. Laboratory Automation: Opentrons Bio-Art Using the HTGAA26 Opentrons Colab as a framework, I developed a custom automation protocol to translate digital designs into biological patterns. Implementation Documentation Technical Script: sami_tanveer_opentrons.py Protocol Logic: The script utilizes API Level 2.20 and a P20 Single-Channel Gen2 pipette. It features an optimized draw_points function that handles coordinate-based dispensing with batched aspiration to ensure mechanical efficiency and prevent cross-contamination between fluorescent strains. Design Interface: The design was mapped using the Opentrons Art GUI, ensuring precise coordinate placement for Red (mRFP1), Green (mClover3), Blue (Azurite), and Cyan (sfGFP) reporters. Visual Reference of Design Interface:

Lab Documentation

• Week 1 Lab: Pipetting

Research Projects

• Individual Final Project
• Group Final Project

Sami Tanveer — 2026 Research Portfolio