StudentShare
Contact Us
Sign In / Sign Up for FREE
Search
Go to advanced search...
Free

Future Career Path in Genetics and Bioinformatics - Personal Statement Example

Cite this document
Summary
The author of the paper "Future Career Path in Genetics and Bioinformatics" states that one of the defining experiences of his\her life was his\her first-hand exposure to the devastation wrought on his\her Aunt Emily by Parkinson’s disease.  …
Download full paper File format: .doc, available for editing
GRAB THE BEST PAPER92% of users find it useful
Future Career Path in Genetics and Bioinformatics
Read Text Preview

Extract of sample "Future Career Path in Genetics and Bioinformatics"

? ment of Purpose During my early childhood in China, where my mother served as a doctor’s assistant, I was frequently exposed to the practice of traditional Chinese medicine for a plethora of ailments. While I never ceased to be amazed by its success in a significant number of cases, I gradually came to realize the shortcomings of the traditional system of medicine. One of the defining experiences of my life was my first hand exposure to the devastation wrought on my Aunt Emily by Parkinson’s disease. Watching the disease reduce my healthy and fiercely independent Aunt into a feeble, bed-ridden invalid at the age of forty-six, was the epiphany which revealed to me my plans for life: I want to be a part of the battle to defeat the chronic diseases which are ravaging humanity. At High School, my plans for the future centered on my becoming a practicing doctor, with the skill of healing patients. I must admit that I had to overcome the disadvantage of a relatively weak foundation in Science, as a result of my Middle School curriculum in China, which did not include Biology. The language barrier also proved difficult to break during the initial years of my arrival in the USA, and my focus then was on mastering English and Mathematics, and understanding American culture. The scientific terms in Biology were difficult to come to grips with! However, my determination to enter the field of Medicine kept me going. The same determination is now my tool in my effort to overcome any shortcomings in my academic career. I am very aware that my GRE writing score of 3 could have been higher, and am determined to identify and address this through repeated practice of writing skills. A career in medicine continued to be my goal as I stood on the threshold of my freshman year at the University of California, Davis. However, the first Molecular Cellular Biology class I attended at the UC Davis, discussing gene therapy, proved to be a revelation to me: I had discovered the interest of my life! I was fascinated by the intricacies and application of genetics: especially in the area of finding epigenetic information. Here was a new front in the battle against chronic disease. As I continued to take additional technical electives in Molecular Biology, Microbiology, and Biotechnology, I came to realize that genetics is one of the most powerful tools available to humanity in the field of medicine. Gene association studies and single-nucleotide polymorphism (SNP) detection can be used in disease prediction, thus potentially preventing disease formation. Genetics is the cutting-edge of health-care research and personalized medicine. The next step in my academic evolution was my realization of the power of technology. As the only child of immigrant parents who were focused on earning a living, the computer has been a good friend of mine, right from the age of twelve, when I moved to the USA. While working as a Laboratory Assistant at the Immunology and Histology Lab of UC Davis Veterinary School in 2009-2010, I became deeply aware of the vast amount of medical information stored and retrieved by accessing a database. This personal experience of the power and efficacy of computers impressed on me the importance of technology as a tool in research. I discovered that the hands-on processing of data gives me immense satisfaction. Gradually, my earlier interest in science and research shifted focus from the traditional bench sitting to a computer oriented approach. Therefore, in my junior year of college, I declared my major as Biotechnology, with a Bioinformatics option that combined my interests in both technology/informatics and biology/genetics. The Applied Bioinformatics course I took in the fall of 2010 confirmed that my special interest lay in the field of bioinformatics and its application in genetic/genomic studies. Craving further practical experience in this field, I opted for internships at different laboratories: Theg Lab, UC Davis; Molecular Anthropology Laboratory, UC Davis; Dubcovsky Wheat Genetic Lab, UC Davis; Neale Lab, UC Davis. These laboratory internships spanned the area of Genetics and Bioinformatics, from Proteomics and Primate, Wheat and Forest Genetics to Data management, scripting, processing and parsing. This academic immersion in the convergence of Genetics and Informatics made me increasingly aware that the power of Genetics in the battle against chronic disease is increased exponentially by the application of Computer Technology. My internships gave me valuable bench lab techniques and hands-on experience in informatics. I was fortunate to gain the guidance of professors who were experts in their fields. The internships also provided me with a solid foundation for my graduate studies and gave me the final confirmation I needed to know that my future career path will be centered on Genetics and Bioinformatics. Although it may appear to be rather on the lower side, I am justifiably proud of my GPA of 3.24, which is the result of my numerous Science classes and internships. In fact, I mastered the art of balancing my heavy academic work load as a full-time student with my numerous (sometimes concurrent) internships and also with the other aspects of my undergraduate life on campus. As the Treasurer and Web-designer of American Red Cross Club (2010-2011), I have acquired leadership skills and have translated my love for computers into a worthwhile contribution to the society. I also served as a senior sister mentor for the lower class at a Christian Fellowship. In addition, I also found the time to learn first aid, CPR and how to drive an emergency disaster truck. I was also a part of the Campus-Community Emergency Response Team (C-CERT) at UC Davis. In my role as a tutor at UC Davis Chinese Department, I was able to share my culture and web learning tools with my students. My communication skills were honed through interaction with people of different ethnic backgrounds. Sharing my immigrant experiences has given me a greater confidence in speaking English. With this full workload, balancing my academic and co-curricular activities, I have gained significant time management skills, and am able to function efficiently under any kind of pressure. In fact, pressure motivates me to excellence. This is proved by my track record of straight A’s in the quarter in which I took on four classes, two internships and two official club positions! In addition to my laboratory experiences, I have mastered quite an array of computer skills. These include C, python, Perl, R, Tassel, Q-value, Tatp, singalp, Chlorop, TAIR, Adobe Photoshop, SeaMonkey, and Microsoft Office series in PC and Mac platforms. I am also very conversant with scientific databases such as Blast, Entrez, Geneseqer, Genebank, PDB, and NCBI database. I am confident that I am fully equipped to handle any computer requirements which my Bioinformatics research will necessitate. I intend to pursue a Masters degree in Genetics and Bioinformatics, and go on to do my Ph.D. I plan to devote my life to research in the area of Molecular Genetics and Gene Therapy with the aid of Bioinformatics.  My ultimate aim is to be in the forefront of the effort to help develop cures for diseases like Parkinson’s disease, cancers, HIV, and Alzheimer’s. I agree that “There are two types of scientists; type 1 focuses on theories and come up with questions, while type two utilizes tools to solve the questions for further investigation”. As a person who enjoys working with practical applications and tools, I admire the first type of scientist, but consider myself to be better suited for the second type. I see myself developing the actual tools that combat diseases. I believe that my passion for Genetics, tested over my years at UC Davis, combined with my long-held interest in Computer Technology, make me particularly suited for research in the field of Human Genetics at Duke University. I believe that the Duke University School of Medicine is the ideal place for me to acquire the skills I need to succeed in my future career path in Genetics and Bioinformatics. The University’s Center for Human Genome Variation attracts me with its world class facilities and the renowned faculty. I believe that every beginner needs a guiding light to see her way through the path that leads to her life’s goals I would love to work under the guidance of Professor Dongliang Ge. Professor Ge’s research mirrors my own interests. I am particularly attracted by his work which combines Genomic research and Computer Technology. I see in Professor Ge’s work the integration of Genetics and Computer Technology, in order to fashion powerful tools which can be applied to the field of Medicine. This is exactly what I aim to do in my future career. I am also attracted by the opportunity of working with Professor Elizabeth Hauser, whose work as a Statistical Geneticist is poised on the meeting-point of Genetics and Informatics. I am confident that the guidance of mentors such as Professor Ge and Professor Hauser will be a life-changing experience, and equip me with the skills I need to make a difference to the world of medical research. I am filled with the enthusiasm to interact with such gifted mentors, who are making significant contributions to the field of Genetic research and Bioinformatics. The published account of their works is inspirational to me. At the same time, I am also confident that my own strengths: my ethnic diversity, my passion for learning, my internship experiences, and my solid foundation in Genetics and Bioinformatics, will enable me to make a valuable contribution to Duke University as a student and to the world of Health care in the future. Read More
Cite this document
  • APA
  • MLA
  • CHICAGO
(Future Career Path in Genetics and Bioinformatics Personal Statement Example | Topics and Well Written Essays - 1000 words, n.d.)
Future Career Path in Genetics and Bioinformatics Personal Statement Example | Topics and Well Written Essays - 1000 words. https://studentshare.org/education/1433987-personal-statement-for-bioinformatics-graduate
(Future Career Path in Genetics and Bioinformatics Personal Statement Example | Topics and Well Written Essays - 1000 Words)
Future Career Path in Genetics and Bioinformatics Personal Statement Example | Topics and Well Written Essays - 1000 Words. https://studentshare.org/education/1433987-personal-statement-for-bioinformatics-graduate.
“Future Career Path in Genetics and Bioinformatics Personal Statement Example | Topics and Well Written Essays - 1000 Words”. https://studentshare.org/education/1433987-personal-statement-for-bioinformatics-graduate.
  • Cited: 3 times

CHECK THESE SAMPLES OF Future Career Path in Genetics and Bioinformatics

The title is related to New applications of mathematics or Maths and technology

TITLE: "DESPITE DIFFERENCES IN THE NATURE OF SCIENCES CAN MATHEMATICS BE APPLIED TO ARTS AND BIOLOGY?... THESIS STATEMENT: Mathematics and ALL OTHER SCIENCES are distinct modes of study.... They are however interrelated in the form that mathematics ‘can' be applied to each of them.... hellip; The proposed study puts forth a few practical examples in order to support this implication....
10 Pages (2500 words) Essay

Bioinformatics in cancer therapy

This work will be suitable for students of medical faculties and students, who study genetics and biology.... In research proposal "bioinformatics in cancer therapy" the main red line is an affection of new scientific discoveries on the treatment of probably one of the cruelest and widespread diseases in the world - cancer.... hellip; bioinformatics uses advanced computing, mathematics, and different technological platforms to physically store, manage, analyze, and understand the data....
8 Pages (2000 words) Research Proposal

Bioinformatics

bioinformatics and Functional genomics.... A normal person has 46 chromosomes while a person with Down syndrome has 47 chromosomes.... This extra chromosome affects the brain and body development.... Down syndrome is very common and is the cause of many… Down syndrome can be diagnosed at birth: the doctor can look at the appearance of the baby or listen to the baby's chest using a stethoscope....
1 Pages (250 words) Lab Report

Advanced Bioinformatics

bioinformatics is being developed at a full pace currently and this science facilitates the process of data processing in the field of biology.... Moreover, on the background of a rapidly developing science, there are many opportunities for bioinformatics is mainly directed on facilitation of ideas and obtained data.... These days bioinformatics is focused on answering the following questions: a question about new genes, protein functioning, finding the difference between healthy cell genes and cancer cells genes etc....
4 Pages (1000 words) Essay

Population Genetics Data

This paper "Population genetics Data" focuses on the fact that human identification database typically has 12 to 15 STR loci together with their associated frequencies.... The Genotypes of 200 unrelated individuals, as indicated in the excel file, was analyzed using the Arlequin Application....
8 Pages (2000 words) Research Paper

GENETICS UNIT 7 ASSIGNMENT (Unit 7: Genomics and Genetic Engineering)

utation has been a significant concept in the world of genetics.... First, individual affected by the condition depicts short stature, sensitive skins to the sun, and an increased risk to developing cancer (genetics Home Reference, 2010).... The skin change is usually associated with continued exposure to the sun (genetics Home Reference, 2010).... Furthermore, the onset of cancer in the individual occurs early and often such person develops more than one type of cancer (genetics Home Reference, 2010)....
2 Pages (500 words) Assignment

Job Opportunity in Bioinformatics

bioinformatics is an indispensable, interdisciplinary science that deals with the development of software and tools for studying and understanding biological data.... bioinformatics uses information storage and data analysis in computer science to deal bioinformatics is, therefore, an extensive field with many job opportunities both directly and indirectly linked to it.... The first job opportunity that bioinformatics presents are sequence analysis....
5 Pages (1250 words) Term Paper

Bioinformatics of Bt Cry Toxins

This lab report "bioinformatics of Bt Cry Toxins" presents differences between natural bacterial and synthetic cry genes as well as the interrelatedness between various cry proteins.... Bacillus thuringiensis (Bt) Cry toxins usually undergo significant changes.... hellip; In sequence retrieval, genes are often named given accession numbers for easier identification and the retrieval of their DNA sequence from the databases....
5 Pages (1250 words) Lab Report
sponsored ads
We use cookies to create the best experience for you. Keep on browsing if you are OK with that, or find out how to manage cookies.
Contact Us