Cell Line Development Research Associate at Atomic Machines

Emeryville, California, United States

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Not SpecifiedCompensation

Junior (1 to 2 years), Mid-level (3 to 4 years)Experience Level

Full TimeJob Type

UnknownVisa

BiotechnologyIndustries

Requirements

Bachelor's degree with 3-6 years of relevant industry experience or Master's degree with 2-3+ years of relevant experience
Experience with molecular cloning and molecular biology techniques (PCR, protein quantification)
Experience with cell line development workflows (pool generation, clonal isolation, stability testing)
Exposure to high-throughput screening platforms (e.g., Beacon, Ambr, Octet, Automation); scripting experience on Tecan is a plus
Working knowledge of statistical analysis or design of experiments (DoE)
Strong written and verbal communication skills; familiarity with Word, Excel, PowerPoint or Google suite software for data analysis and presentations
Ability to precisely follow protocols, design and execute experiments independently, troubleshoot analytical techniques, and manage multiple tasks in a fast-paced environment
Comfort working in a dynamic, fast-paced R&D environment
(Nice to have) Familiarity with optogenetic systems, inducible promoters, or light-responsive protein engineering

Responsibilities

Conducting experiments independently, collecting and analyzing data in a timely manner, and maintaining detailed documentation in electronic lab notebooks
Strong communication: putting data together and presenting within the CLD group and across different groups/forums; providing critical data/figures for presentations, patents, or publications
Collaborate closely with CLD team members and other teams at Prolific Machines
Contribute to lab maintenance and safety
Developing and optimizing analytical methods, ensuring adherence to safety and operational standards, following established protocols, and providing data for regulatory submissions
Improving Optogenetic CHO cells culture and process performance; conducting cellular and molecular biology studies to engineer CHO Optogenetic cell lines
Onsite presence required as dictated by CLD responsibilities and experimental needs

Skills

Cell Line Development

CHO Cell Culture

Optogenetics

Molecular Biology

Cellular Biology

Data Analysis

Electronic Lab Notebooks

Scientific Communication

Experiment Design

Atomic Machines

Develops machines for atomically precise manufacturing

About Atomic Machines

Atomic Machines develops machines for atomically precise manufacturing (APM), which allows for the creation of physical objects directly from digital designs. Their technology focuses on microfabrication, particularly in producing Micro-Electro-Mechanical Systems (MEMS), which are small devices that combine mechanical and electronic components. Unlike traditional methods that rely on silicon, Atomic Machines offers a more efficient approach to MEMS fabrication. They cater to various industries, including semiconductor, automotive, healthcare, and consumer electronics, providing advanced fabrication solutions that enhance precision, efficiency, and scalability. The company differentiates itself by focusing on APM, aiming to set new standards in manufacturing technology. Their goal is to transform the manufacturing landscape by merging digital and physical production processes.

Berkeley, CaliforniaHeadquarters

2019Year Founded

SEEDCompany Stage

Industrial & Manufacturing, HealthcareIndustries

51-200Employees

Benefits

Professional Development Budget

Risks

Emerging competition from companies like Zyvex Labs in atomically precise manufacturing.

Potential intellectual property disputes as more companies enter the APM space.

Economic downturns could reduce demand for MEMS in key sectors.

Differentiation

Atomic Machines focuses on atomically precise manufacturing, a novel approach in microfabrication.

The company targets diverse industries, including automotive, healthcare, and consumer electronics.

Their innovative MEMS technology offers higher precision and efficiency than traditional methods.

Upsides

Growing demand for MEMS in smart medical devices presents a significant market opportunity.

Advancements in nanomaterials could enhance Atomic Machines' manufacturing capabilities.

The shift to electric vehicles increases the need for advanced MEMS sensors.

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