How to Become a Biotech Scientist (Decoding the DNA Dilemma)

If you’ve always been fascinated by the mysteries of life sciences and pondered about stepping into the thrilling world of biotechnology, you’ve come to the right place.

In this guide, we’ll delve into the EXACT steps you need to follow to kick-start your career as a Biotech Scientist. We’ll discuss:

The skills you need.
The education that can assist you in your journey.
How to secure your first job as a Biotech Scientist.

So, whether you’re a science enthusiast or a biotech professional seeking to enhance your expertise, stay tuned.

We’re about to unfold the comprehensive roadmap to becoming a Biotech Scientist.

Let’s get started!

Contents show

Steps to Become a Biotech Scientist

Step 1: Gain a Strong Foundation in Sciences

The first step to becoming a biotech scientist is to gain a strong foundation in the sciences during your high school years.

This involves taking advanced courses in biology, chemistry, physics, and mathematics.

This will provide the necessary groundwork for the advanced study in biotechnology that you will undertake in college.

In addition to school coursework, you should seek out extracurricular activities and summer programs that allow you to explore the sciences in a hands-on way.

Participating in science fairs, joining a science club, or volunteering at a local hospital or laboratory can expose you to practical applications of science and spark your interest in biotechnology.

You may also want to start reading scientific journals and articles to familiarize yourself with current research trends in biotechnology.

This will help you to gain an understanding of the field, its challenges, and its advancements.

All of these experiences will not only enhance your scientific knowledge but also your analytical and critical thinking skills which are vital for a career in biotechnology.

Step 2: Obtain a Bachelor’s Degree in a Relevant Field

To pursue a career as a Biotech Scientist, you’ll need to begin with obtaining a bachelor’s degree in a related field such as biology, biotechnology, biochemistry, or genetic engineering.

These programs will give you a solid foundation in the sciences and introduce you to the laboratory techniques and procedures used in biotechnology.

Coursework often includes subjects like cell biology, molecular biology, genetics, chemistry, bioinformatics, and microbiology.

This background is essential for understanding the principles behind the technology and techniques you will use as a Biotech Scientist.

Many programs also offer undergraduate research opportunities that allow students to gain hands-on experience and potentially contribute to published research.

This can be a significant advantage when seeking employment or applying to graduate programs.

Take note, the profession requires a strong understanding of scientific principles and the ability to apply them in research.

Therefore, a strong academic performance in these areas during your undergraduate studies is important.

This is just a first step, and further education may be necessary for certain specializations or career advancements in the field of biotechnology.

Step 3: Partake in Research and Laboratory Work

As a biotech scientist, it’s crucial to gain hands-on experience in research and laboratory work.

This will allow you to apply what you’ve learned in your academic studies and develop practical skills that are essential in this industry.

You should take advantage of any opportunities offered by your undergraduate or graduate programs to participate in lab work or research projects.

You may be involved in projects that range from genetic engineering to pharmaceutical development.

This will expose you to various biotechnological techniques and tools, such as PCR, gene cloning, and DNA sequencing.

It’s also a good idea to learn about laboratory safety procedures and ethical issues related to biotechnological research.

Furthermore, participating in research projects will give you a chance to contribute to scientific knowledge, develop problem-solving skills and learn how to work as part of a team.

This experience will be invaluable when you start your career as a biotech scientist, as you’ll be expected to conduct research and work in a lab environment.

In addition, this practical experience can make your resume stand out to employers and may even lead to opportunities for networking and collaboration with established scientists in the field.

Therefore, you should make the most of these experiences and strive to learn as much as you can from them.

Step 4: Complete Advanced Education

In order to excel as a Biotech Scientist, it is crucial to pursue advanced education such as a master’s degree or a doctorate in Biotechnology or a related field like Molecular Biology, Bioinformatics, or Genetics.

Entering a master’s program allows you to have a more focused study on biotechnology, with subjects varying from molecular biology, cell culture technologies, to bioinformatics.

You can choose between a research-oriented thesis track or a non-thesis track, which usually involves more coursework or a practical project.

If you want to work in academia, research, or high-level positions in the industry, a thesis track is usually recommended.

If you are considering a doctorate, you can bypass the master’s and proceed directly to a Ph.D. after your bachelor’s degree.

Doctoral programs are heavily research-focused and require you to work on an original research project leading to a dissertation.

The process equips you with deep knowledge and specialized skills in your field of study, and positions you for leadership roles in biotech research or academia.

During your advanced education, you will have the opportunity to work on laboratory projects, internships, or fellowships that will expose you to real-world biotech problems and cutting-edge technologies.

This hands-on experience can provide a competitive advantage when applying for job roles in the biotech industry.

Step 5: Gain Specialized Knowledge

As you progress in your career as a Biotech Scientist, it’s crucial to gain specialized knowledge in a particular area of biotechnology.

The field of biotechnology is vast and includes areas such as genomics, proteomics, bioinformatics, environmental biotechnology, and medical biotechnology.

Selecting a specific focus allows you to develop a deep understanding and specialized skill set that can differentiate you from other professionals in the field.

To gain this specialized knowledge, you can pursue advanced courses, seminars, or workshops in your chosen area.

You may also consider a postdoctoral fellowship in your area of interest.

Remember, the field of biotechnology is dynamic and ever-evolving.

Therefore, it is important to keep yourself updated with the latest advancements and trends in your chosen specialty.

You can do this by regularly reading scientific journals, attending conferences, and being involved in professional networks.

Your specialized knowledge will not only make you more marketable but also increase your chances of making significant contributions to the field.

Step 6: Develop Technical Skills

As a biotech scientist, you need to develop a wide range of technical skills that are critical for success in this field.

The development of these skills usually begins during undergraduate and graduate studies, but should be continually refined throughout your career.

One important area of focus is laboratory skills.

This includes techniques such as DNA sequencing, cell culture, protein purification, and various microscopy techniques.

You should also be familiar with the use of bioinformatics tools and databases, as this will be integral in analyzing and interpreting experimental results.

Another critical skill set for a biotech scientist is data analysis.

You should be proficient in statistical methods and possibly even machine learning techniques to handle the large datasets commonly encountered in this field.

Computer programming is another technical skill that is increasingly important for biotech scientists.

Knowledge of programming languages such as Python or R can be invaluable for data analysis and bioinformatics.

You should also consider developing skills in specialized areas depending on your interests and career goals.

For example, if you are interested in drug discovery, you should gain skills in medicinal chemistry and pharmacology.

If your interest lies in genetic engineering, skills in molecular biology and genetics would be important.

It’s not enough to just know these skills theoretically – you should seek opportunities to apply them practically.

This could be through internships, research projects, or even volunteering in a laboratory.

Practical experience will not only improve your technical skills but also give you an idea of what working as a biotech scientist is really like.

Step 7: Complete Internships and Co-op Programs

As a biotech scientist, it’s critical to gather practical experience in the field through internships and co-op programs.

This is an excellent way to apply the theoretical knowledge you’ve acquired in school to real-world scenarios.

Internships and co-op programs also provide the opportunity to work alongside experienced professionals, which can further deepen your understanding of the field.

Most universities and colleges have tie-ups with biotech companies, which facilitate these internships or co-op programs.

These programs allow you to work on actual biotech projects, gain hands-on laboratory experience, and learn about the latest technologies and methodologies used in the industry.

You may work in different areas such as genetic engineering, bioinformatics, pharmaceuticals, agriculture biotechnology, or biomedical engineering, based on your interest and career goals.

These experiences can also help you narrow down your career focus, allowing you to specialize in a particular area of biotechnology.

Remember, the more practical experience you have, the better equipped you’ll be to start your career as a biotech scientist.

These internships and co-op programs can also be valuable networking opportunities, potentially leading to job offers after graduation.

Always ensure that you approach these opportunities with professionalism and a genuine eagerness to learn.

Step 8: Publish Research Findings

After significant progress in your research, it’s important to publish your findings.

This can be done in a variety of scientific journals that specialize in biotechnology, such as the Journal of Biotechnology or Nature Biotechnology.

Publishing your findings not only contributes to the scientific community, but it also enhances your credibility as a biotech scientist.

Before publication, you will need to write a research paper that clearly communicates your research process, your findings, and their significance in the context of existing knowledge.

This paper will then undergo a peer review process before it is accepted for publication.

Publishing research findings also exposes your work to potential criticism and scrutiny from peers, which is an essential part of scientific research.

It can lead to new collaborations, grant opportunities, and even job offers.

Continued publication throughout your career as a biotech scientist is also often a key factor considered in promotions and tenure decisions in academic and research roles.

Thus, consistently working on research projects and publishing your findings is essential for career advancement in the field of biotechnology.

Step 9: Network Within the Scientific Community

Building a strong network within the scientific community is crucial for a career as a Biotech Scientist.

It helps in staying updated with the latest research, developments, and trends in the field, and can also open up opportunities for collaborations, grants, and job offers.

One way to expand your network is by attending scientific conferences, workshops, and seminars.

These events not only provide a platform to share your own research but also a chance to interact with other scientists and industry professionals.

Make sure to participate actively, ask questions, and exchange contact information for future communication.

Another way is by joining professional organizations or societies related to biotechnology.

Membership often includes access to exclusive resources, networking events, and job boards.

Additionally, leveraging online platforms, such as LinkedIn and ResearchGate, can also be beneficial.

These platforms allow for interaction with other professionals across the globe, access to latest publications, and opportunities for collaboration.

Remember, networking is not just about taking, it’s about contributing to the community as well.

By sharing your research, knowledge, and experiences, you not only build your personal brand but also contribute to the advancement of biotechnology as a field.

Step 10: Seek Industry Certifications

Obtaining industry certifications can greatly enhance your employability as a Biotech Scientist.

These certifications offer proof of your skills and knowledge in specific areas of biotechnology.

They may cover topics such as bioinformatics, molecular biology, and genomics among others.

You may consider certifications offered by recognized bodies such as the American Society for Clinical Pathology (ASCP), which offers a Technologist in Molecular Biology certification, or the Biotechnology Innovation Organization (BIO), which offers a Certified Biotechnology Professional certification.

These certifications usually require a combination of education and work experience, and you’ll typically need to pass an examination to earn the certification.

Some certifications may require ongoing education to maintain.

Industry certifications can help you stand out from other job candidates.

They also show your commitment to staying current in your field.

Remember, the field of biotechnology is always advancing, so continual learning and development are key for a successful career.

Finally, some biotech companies may even require certain certifications for specific roles, so it’s always advisable to keep expanding your qualification portfolio.

Step 11: Apply for Biotech Scientist Positions

After acquiring the necessary education and experience, the next step is to actively search and apply for Biotech Scientist positions.

This can be done through various job search platforms, recruitment agencies, biotech company websites, or career fairs.

Start by creating a compelling resume that highlights your skills, experiences, and achievements in the field of biotechnology.

Tailor your resume and cover letter for each job application to reflect how you meet the specific requirements of the position.

Networking is also a valuable tool in job hunting.

Engage with professionals in your field through social media, professional forums, or at industry events.

Join professional organizations related to biotechnology to stay updated on job openings and industry trends.

Prepare for interviews by researching the company, practicing common interview questions, and demonstrating your knowledge of the biotechnological processes, techniques, and tools relevant to the role you’re applying for.

Don’t get discouraged if you don’t get a job offer immediately.

The biotech industry is competitive and it may take several applications before you secure a position.

Persistence and a positive attitude are key during this process.

Step 12: Embrace Lifelong Learning

Biotechnology is a rapidly evolving field.

Even after you have completed your education and have started working as a Biotech Scientist, it is essential to stay updated with the latest developments and breakthroughs in your field.

Embrace lifelong learning as an integral part of your career path.

Lifelong learning can involve attending workshops, seminars, and conferences related to biotechnology.

These events often feature experts who share their latest research findings, and attending can help you stay ahead of the curve.

They also provide networking opportunities that could lead to collaborations on future projects.

Additionally, consider subscribing to relevant scientific journals and publications.

Reading these on a regular basis will keep you updated on the most recent advancements and trends in biotechnology.

Further education is another aspect of lifelong learning.

There’s always room to deepen your knowledge or expand your skills.

You might decide to specialize in a specific subfield of biotechnology, or perhaps learn about a complementary field to broaden your expertise.

Lastly, be open to learning from your own experiences.

Whether it’s a failed experiment or a successful project, each experience offers valuable lessons that can inform your future work.

By embracing lifelong learning, you can continue to grow, innovate, and excel as a Biotech Scientist.

Step 13: Investigate Ethical, Legal and Societal Implications

As a biotech scientist, you will likely encounter situations where ethical, legal, and societal implications of your work come into play.

Understanding these aspects is crucial to ensuring your research and developments are acceptable and beneficial to society.

Take the time to study the ethical principles and guidelines governing biotechnology research.

This might include topics such as gene editing, cloning, privacy and confidentiality of genetic data, and informed consent for genetic testing.

Different regions have different laws and regulations, so be well-versed in the legal frameworks applicable to your work.

Furthermore, understand the societal implications of biotechnology.

This includes how your work might impact the environment, public health, or even economic systems.

You could conduct social impact assessments or engage with communities and stakeholders to understand their perspectives.

Participating in workshops, courses or seminars on bioethics, health law, or societal impact can be helpful in understanding these complex issues.

You might also want to collaborate with ethicists, sociologists, or legal professionals to ensure your work maintains high ethical and legal standards while maximizing societal benefits.

This step will not only help to guide your research in a responsible manner, but also prepare you to address any concerns or questions raised by the public, the media, or regulatory bodies about your work.

Biotech Scientist Roles and Responsibilities

Biotech Scientists use their knowledge of biology, chemistry, and technology to develop and apply innovative methods and processes for improving human health, agriculture, and environment.

They have the following roles and responsibilities:

Research and Development

Design and conduct experiments, make observations, and interpret results.
Develop new biological products and processes using biotechnological methods.
Optimize processes for the production of biotechnological products.

Problem Solving

Identify scientific and technical issues and propose solutions.
Debug and troubleshoot issues in biotechnological processes.
Optimize biological systems and processes for efficiency.

Lab Management

Ensure lab safety and compliance with regulations.
Maintain and operate laboratory equipment.
Manage lab resources including reagents, consumables, and waste.

Quality Control and Assurance

Perform quality control tests on products and processes.
Ensure biotechnological products meet quality and safety standards.
Develop and implement quality control procedures.

Documentation

Write research papers, reports, and documentation for experiments and processes.
Keep accurate records of experiments and findings.

Collaboration

Work closely with cross-functional teams (scientists, engineers, production staff).

Data Analysis

Analyze experimental data using statistical software.
Present data in a clear and concise manner.

Project Management

Manage projects, including timelines, resources, and personnel.
Coordinate with other departments and stakeholders.

Regulatory Compliance

Ensure all procedures and products comply with regulations.
Prepare documents for regulatory submissions.

Technology Transfer

Transfer technology from research to production scale.
Optimize processes for scale-up.

Communication

Present research findings to scientific and non-scientific audiences.
Write grant proposals and project reports.

Continuous Learning

Stay current with latest research and technology in biotechnology.
Attend conferences, workshops, and training programs.

Mentoring and Training

Train and mentor junior scientists and technicians.

What Does a Biotech Scientist Do?

Biotech Scientists typically work in laboratories for biotechnology companies, pharmaceutical firms, or research institutions.

Their work is often critical in developing new medical treatments, improving agricultural practices, or creating eco-friendly technologies.

Their primary responsibility is to conduct various experiments and research projects to understand and manipulate the biological processes of organisms.

They use advanced technologies and techniques such as genetic engineering, cell culture, bioprocessing, and bioinformatics tools.

They often work in teams, collaborating with other scientists, researchers, and technicians to analyze data, interpret results, and develop conclusions.

They may also work on the creation of new biotech products, from initial research and development to clinical trials.

Biotech Scientists are also involved in writing research papers, reports, and grant proposals.

They may present their findings at scientific conferences and meetings.

Furthermore, they may be responsible for maintaining the safety and cleanliness of the lab, ensuring all experiments are carried out in a controlled and ethical manner, and that laboratory equipment is correctly used and maintained.

In some cases, Biotech Scientists may be involved in the patenting process for new biotechnological products or processes that they have helped to develop.

Essential Biotech Scientist Skills

Scientific Research: A biotech scientist must have strong research skills to investigate biological processes, examine existing literature, and develop scientific hypotheses.
Laboratory Techniques: Proficiency in laboratory techniques such as DNA sequencing, protein purification, and cell culture is critical for conducting experiments and analyzing results.
Biostatistics: A solid understanding of biostatistics is necessary for analyzing and interpreting complex biological data. It helps in validating findings and ensuring the accuracy of results.
Bioinformatics: Bioinformatics involves the use of software and computational methods to understand biological data. Skills in bioinformatics can aid in gene sequencing, protein structure prediction, and other crucial tasks.
Genomics: Familiarity with genomics, the study of genes and their functions, is critical for understanding genetic diseases, developing gene therapies, and various other applications in biotechnology.
Molecular Biology: Knowledge of molecular biology is essential to understand the interactions between different systems of a cell, including DNA, RNA, and protein biosynthesis.
Problem-solving: Biotech scientists often face complex problems that require innovative solutions. Strong problem-solving skills can lead to breakthroughs in research and development.
Communication: Communication skills are necessary to present research findings, write scientific papers, collaborate with team members, and explain complex concepts to non-scientists.
Project Management: Scientists often lead research projects, requiring them to manage resources, timelines, and team members effectively.
Data Analysis: Biotech scientists deal with large volumes of data. Skills in data analysis, including using software like R or Python, can help in extracting meaningful insights from raw data.
Scientific Writing: Ability to communicate research findings clearly and effectively in written form is essential for scientific publications and grant proposals.
Regulatory Compliance: Knowledge of regulatory standards and ethical considerations is vital to ensure the safety and legality of all biotech processes.
Teamwork: Collaborating effectively with a team of scientists, technicians, and other professionals is crucial to achieve common goals in a research project.
Critical Thinking: The ability to analyze situations, interpret data, and make informed decisions is a critical skill for any scientist.
Patience and Perseverance: Scientific research often involves long hours of work and repeated experiments. Therefore, having patience and the ability to persevere in the face of setbacks is invaluable.

Biotech Scientist Career Path Progression

The Foundation: Junior Biotech Scientist

The journey usually starts as a Junior Biotech Scientist.

This is the phase where you learn the ropes, absorb knowledge, and gain hands-on lab experience.

Your duties might encompass conducting experiments, analyzing data, and contributing to small-scale research projects.

Here are some tips for excelling in this role:

Continuous Learning: Stay abreast of the latest advancements in biotechnology and life sciences.
Seek Mentorship: Learn from experienced colleagues and don’t hesitate to ask questions.
Detail-Oriented: Pay meticulous attention to detail in conducting experiments and documenting results.

The Ascent: Biotech Scientist

With experience and increasing competence, you will evolve into the role of a Biotech Scientist.

You’ll take on more complex research projects, contribute to the development of new technologies, and become a crucial part of the scientific team.

Here’s how to thrive in this stage:

Critical Thinking: Enhance your problem-solving skills by addressing challenging scientific problems.
Collaboration: Embrace teamwork and communicate effectively with your colleagues and other stakeholders.
Quality Control: Ensure the integrity and reproducibility of your experiments and data.

Reaching New Heights: Senior Biotech Scientist

The next step up is the Senior Biotech Scientist position.

At this juncture, you are recognized for your expertise and leadership within the team.

You may guide the research direction, lead projects, and mentor junior scientists.

To excel as a Senior Biotech Scientist:

Mentorship: Help junior scientists to grow by sharing your knowledge and experience.
Scientific Leadership: Shape the research direction and make key decisions about project objectives.
Leadership: Lead by example, demonstrating dedication, scientific curiosity, and problem-solving abilities.

Beyond the Horizon: Lead Roles and Beyond

As your career progresses, you might choose to specialize in a particular area, such as becoming a Principal Scientist, Lab Manager, or even a Director of Research.

These roles involve greater responsibilities, leadership, and strategic decision-making.

Here’s what to focus on:

Scientific Leadership: Drive scientific initiatives and shape the research direction of your projects and teams.
Management Skills: If you transition into management, develop strong leadership and communication skills to guide your team effectively.
Innovation: Continue to innovate, pushing the boundaries of biotechnological research.

Pinnacle of Success: Chief Scientific Officer or VP of Research

At the apex of the Biotech Scientist career ladder, you may reach roles like Chief Scientific Officer or VP of Research.

In these roles, you’ll be responsible for shaping the overall research strategy of the organization, making pivotal decisions, and managing large teams of scientists.

Biotech Scientist Salary

Entry-Level Biotech Scientist

Median Salary: $50,000 – $70,000 per year
Entry-level biotech scientists usually have 0-2 years of experience. They typically hold a bachelor’s or master’s degree in biotechnology or a related field.

Mid-Level Biotech Scientist

Median Salary: $70,000 – $90,000 per year
Mid-level biotech scientists have 2-5 years of experience and are often responsible for leading smaller projects, conducting complex experiments, and contributing to scientific papers.

Senior Biotech Scientist

Median Salary: $90,000 – $120,000 per year
Senior biotech scientists possess 5+ years of experience. They are typically responsible for leading and designing major research projects, overseeing laboratory operations, and mentoring junior scientists.

Biotech Research Manager / Lab Director

Median Salary: $120,000 – $160,000+ per year
These roles require significant experience in the field of biotechnology. They often involve the oversight of all lab operations, project management, and key decision-making responsibilities.

Chief Scientific Officer / VP of Research and Development

Median Salary: $180,000 – $250,000+ per year
These high-level positions require extensive experience and a deep understanding of biotechnology. They often involve setting the scientific strategies for a company, overseeing all research and development, and driving innovation.

Biotech Scientist Work Environment

Biotech scientists commonly work in laboratories and research facilities, where they conduct experiments and analyze results.

These laboratories could be located in pharmaceutical companies, universities, government agencies, or independent research institutions.

They usually work full time with some roles requiring overtime, especially when deadlines for research findings are approaching.

Some biotech scientists may also work in field settings, depending on the nature of their research.

Over time and with extensive experience and a good track record, a biotech scientist may choose to lead their own research team, or even start their own biotech company.

They may also branch out into related fields such as biotech consulting or patent law.

FAQs About Becoming a Biotech Scientist

What is needed to become a biotech scientist?

To become a biotech scientist, you typically need a strong background in biology, chemistry, and biotechnology.

A Bachelor’s degree in Biotechnology, Biochemistry, or a related field is typically the minimum requirement.

However, many biotech scientists also have Master’s degrees or Ph.Ds. Key skills include proficiency in laboratory techniques, data analysis, and problem-solving.

Additionally, soft skills like communication, teamwork, and adaptability are important in this field due to the collaborative nature of most research projects.

How long does it take to be a biotech scientist?

The length of time it takes to become a biotech scientist can vary based on your educational path.

A Bachelor’s degree typically takes four years, a Master’s degree can take an additional two years, and a Ph.D. can take an additional four to six years.

However, some individuals may enter the field with just a Bachelor’s degree and gain experience on the job.

Postdoctoral research positions are also common and can last several years.

Can I be a biotech scientist without a degree?

While it may be possible to work in some aspects of the biotech industry without a traditional degree, becoming a biotech scientist typically requires at least a Bachelor’s degree due to the specialized knowledge and skills required.

A solid foundation in biology, chemistry, and laboratory techniques is typically necessary.

However, there are some positions in the biotech industry, such as lab technicians or manufacturing roles, that may require less formal education.

Is being a biotech scientist a stressful job?

Being a biotech scientist can be stressful at times due to the pressure to produce results, publish research, and secure funding.

However, the level of stress can vary depending on the specific role, the workplace environment, and the individual’s work-life balance and coping strategies.

Many biotech scientists find the work rewarding and enjoy the process of discovery and contributing to advancements in the field.

What are the prospects for biotech scientists in the next decade?

The prospects for biotech scientists are promising in the next decade.

The biotech industry is rapidly growing, and advancements in areas such as genetic engineering, personalized medicine, and sustainable agriculture offer exciting opportunities.

As our understanding of biology and technology continues to evolve, the demand for skilled biotech scientists is expected to remain high.

Conclusion

There you have it.

Setting out on the expedition to become a biotech scientist is no simple task, yet it’s incredibly rewarding.

Equipped with the right knowledge, education, and tenacity, you’re about to make a significant contribution to the world of biotechnology.

Remember, the road may be challenging, but the possibilities are infinite. Your research and discoveries could lead to the next breakthrough that changes the face of medical science, agriculture, or environmental conservation.

So, take that initial leap. Immerse yourself in continuous learning. Connect with industry experts. And most importantly, never stop experimenting.

Because the world is waiting for the solutions you can provide.

And if you’re seeking personalized direction on starting or progressing your career in biotechnology, check out our AI Career Path Advisor.

This complimentary tool is specifically designed to provide tailored advice and resources to help you effectively navigate your career journey in biotechnology.

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