📅 Dates: Sundays — Apr 5, 12, 19, 26
🕘 Time: 10:00 AM – 1:00 PM EST
📍 Format: Live Online, Interactive Sessions
💲 Tuition: $400 (Bundle & Save Options Below)
College biology and medical tracks are tough, and many students lose confidence early on because they didn’t have meaningful exposure in high school.
Our Genetics Learning Camp changes that. Students explore how DNA, heredity, and genetic technology shape the future of healthcare, agriculture, and even AI-driven medicine, gaining clarity and excitement about whether this path is truly for them.
Build understanding of DNA, RNA, and heredity through exploration and research
Explore CRISPR, gene editing, and personalized medicine
Understand how genetics drives modern medical innovation
Strengthen scientific reasoning and college-level readiness
DNA and RNA: How genetic information is stored, transcribed, and translated in the human body.
The human genome: Understanding how genes determine traits and influence disease.
The core concepts of genetics: Mendelian inheritance, dominant and recessive traits, and probability in heredity.
Recent advances: CRISPR and emerging genetic technologies that are reshaping medicine and bioethics.
Perfect for Advanced 10th–12th Graders Curious About Biology and Medicine
Aspire to careers in healthcare, genetics, or biomedical engineering
Enjoy biology, chemistry, or lab experiments
Want to explore future-ready fields like biotechnology and gene editing
Need unique enrichment experiences for college applications
Are fascinated by biology and want to understand genetics beyond the textbook.
Plan to pursue majors in Biology, Medicine, Genetics, or Biomedical Engineering.
Enjoy analyzing systems and making connections between science and ethics.
Want to explore the intersection of genetic research and real-world impact.
Dr. Saltzer transforms complex science into meaningful, accessible learning for young minds. With decades of university teaching and over 25 textbooks published by Pearson and McGraw-Hill, he helps students connect math, biology, and physics in ways that inspire.
National awards for excellence in STEM education
More than 25 textbooks shaping how students learn worldwide
Former university professor mentoring future scientists
Known for making abstract concepts exciting and real
Discuss case studies on genetic disorders and gene therapy developments.
Compare classical and modern approaches to understanding heredity.
Examine the ethical questions surrounding genetic research and innovation.
Engage directly with the instructor to clarify concepts and ask questions.
Discuss case studies on genetic disorders and gene therapy developments.
Compare classical and modern approaches to understanding heredity.
Examine the ethical questions surrounding genetic research and innovation.
Engage directly with the instructor to clarify concepts and ask questions.
Simulate DNA extraction and gel electrophoresis experiments
Decode genetic sequences to identify mutations
Explore how CRISPR can “edit” genes
Debate ethical questions facing modern scientists
Simulate DNA extraction and gel electrophoresis experiments
Decode genetic sequences to identify mutations
Explore how CRISPR can “edit” genes
Debate ethical questions facing modern scientists
$400
1 month / 4 Sessions
Certification
Live 3-hour weekly sessions (4 total per month)
Expert instruction & interactive learning
$1100
Any 3 Programs
Certifications
Free 1 on 1 College Pathway Consultation
Live 3-hour weekly sessions (3 of Any Programs)
$2000
Full Year (6 Programs)
Certification
Priority Access to Research Scholar Program
Live 3-hour weekly sessions
(6 Programs)
Elite pre-college biology programs charge thousands for one subject. Our expert-led, 4-session model offers the same level of enrichment — for only $400 — while allowing students to explore multiple fields in one academic year.
💬 “My daughter discovered her passion for genetics here — she’s now planning to major in biomedical engineering!”
— Parent, NJ
Students begin by exploring how genetic information is stored and expressed. They’ll learn the structure of DNA and RNA, how replication works, and how genes are transcribed and translated into proteins that define every biological function.
This session examines the organization and function of the human genome — how genes are mapped, regulated, and inherited. Students discuss how variations in genetic code influence physical traits, disease susceptibility, and human diversity.
Students study the principles of inheritance from Mendel’s discoveries to modern probability-based models. They’ll explore dominant and recessive traits, Punnett squares, and how genetic patterns explain hereditary conditions.
In the final session, students explore recent breakthroughs in genetics, including CRISPR gene editing, genome sequencing, and ethical challenges in biotechnology. They’ll discuss how
4 Sundays in April | 10:00 AM – 1:00 PM EST | Online | Live Interactive Session
ADVANCES IN GENETICS AND GENETIC TECHNOLOGY LEARNING CAMP
April | Sunday | April 5, 12, 19 & 26 |
10:00 AM – 1:00 PM EST
Live class: Zoom link will be shared
$400/ month per camp
Session 1: DNA and RNA — The Code of Life
Session 2: The Human Genome
Session 3: The Core Concepts of Genetics
Session 4: Modern Genetics and Emerging Technologies
Certificate of Completion
Expert instruction & interactive learning
Access to resources & assignments
Live 3-hour weekly sessions (4 total per month)