Future Career Scope Of Bioinformatics In 2030 - Why Bioinformatics Career Is The Best Choice?
Summary
TLDRThis video explores the future of bioinformatics, a field at the intersection of biosciences and information technology, with vast potential for growth. The speaker outlines 11 key areas where bioinformatics will play a crucial role, including pharmacology, proteomics, gene therapy, and precision medicine. With advancements in quantum computing and global research, the field is poised for exponential growth. The speaker encourages viewers to consider a career in bioinformatics and offers resources for learning more about this dynamic field.
Takeaways
- 🔬 Bioinformatics stands at the intersection of biosciences and information technology, offering a unique advantage due to its overlap with growing fields.
- 💊 The field is expected to grow significantly with advancements in pharmacology and computer-aided drug design, especially with the impact of quantum computing.
- 🧬 Proteomics, the study of proteins, is heavily dependent on bioinformatics for data analysis,预示着bioinformatics will expand as proteomics research grows.
- 🌐 Centralized data analysis through globally accessible databases is a core aspect of bioinformatics, facilitating international collaboration in biological and medical research.
- 🧬 Gene therapy and cancer bioinformatics will play a crucial role in identifying gene or protein targets for cancer treatment, riding the wave of increased cancer research.
- 🩺 Precision medicine, which uses bioinformatics to analyze gene sequencing data, is set to be a major growth area, with bioinformatics playing a key role in its development.
- 🌾 Agriculture bioinformatics will be essential in developing pest-resistant and drought-tolerant crops to meet the growing global demand for food.
- 🧠 Systems biology and bioinformatics are closely linked, with the latter providing computational tools to understand complex biological systems and predict their responses.
- 🧬 Genetics and genomics research heavily utilize bioinformatics for data generation and analysis, with potential to revolutionize disease treatment and elimination.
- 💉 Immunoinformatics and vaccine discovery will benefit from bioinformatics in studying host-pathogen interactions and designing vaccines, especially in light of recent pandemics.
- 🧠 Neuroinformatics, a growing field, uses bioinformatics to understand the nervous system and could see significant advancements in the coming years.
- 🏭 Industrial biocatalysis is an application of bioinformatics in industry, focusing on discovering new biocatalysts through advanced DNA and protein sequence analysis.
Q & A
What significant question did the speaker ask themselves at the age of 19 that changed their life?
-The speaker asked themselves where they want to see themselves in 10 years from now, which led to the creation of Biotechnica.
Why is bioinformatics considered a field that stands at the boundary of arts, science, and commerce?
-Bioinformatics stands at the boundary of biosciences and information technology, providing a tremendous advantage as it benefits from the growth of both fields.
How does quantum computing impact the future of bioinformatics in drug discovery?
-Quantum computing is expected to grow exponentially, which will have a significant impact on drug discovery processes, including bioinformatics.
What is the role of bioinformatics in proteomics and how does it influence the future scope of the field?
-Bioinformatics is heavily dependent on proteomics for collecting, organizing, and analyzing protein sequences and their interactions, indicating a growing scope for bioinformatics as proteomics expands.
Why is centralized data analysis crucial for bioinformatics and its future?
-Centralized data analysis through globally accessible databases enables collaboration among scientists, which is expected to grow significantly in the next decade, thus expanding the utility of bioinformatics.
How does gene therapy and cancer bioinformatics contribute to the future of bioinformatics?
-Gene therapy and cancer bioinformatics involve organizing and analyzing data to identify gene or protein targets for cancer treatment, with global companies investing in cancer research, indicating a promising future for bioinformatics.
What is precision medicine and how does it relate to the growth of bioinformatics?
-Precision medicine involves analyzing gene sequencing data to find mutations or gene variants affecting patients, and bioinformatics plays a crucial role in this field, which is still in its infancy and has high growth potential.
How does agriculture bioinformatics contribute to meeting the future demands for food crops?
-Agriculture bioinformatics helps in the collection and storage of plant genetic resources to develop pest-resistant and drought-tolerant crops, addressing the growing demand for food.
What is the relationship between systems biology and bioinformatics?
-Systems biology seeks to understand the functioning of biological systems as a whole, and bioinformatics tools are used for mathematical modeling and analysis to achieve fast results and validate predictions.
How does genetics and genomics research contribute to the growth of bioinformatics?
-Genetics and genomics apply bioinformatics to generate data from DNA and RNA sequencing, and as research in these fields grows, so does the need for bioinformatics tools and techniques.
What is immunoinformatics and how does it relate to vaccine discovery and the growth of bioinformatics?
-Immunoinformatics involves studying host-pathogen interactions and assigning functions to genes for vaccine design. With increased research into viruses, immunoinformatics and bioinformatics are expected to grow exponentially.
What is neuroinformatics and how does it utilize bioinformatics?
-Neuroinformatics involves creating databases of experimental and computational data for understanding the nervous system. Bioinformatics tools are used to store and analyze this data, contributing to the growth of the field.
What is industrial biocatalysis and its significance in the context of bioinformatics?
-Industrial biocatalysis focuses on the use of biocatalysts, often microbial enzymes, in industrial processes. Bioinformatics plays a significant role in discovering and identifying new biocatalysts through DNA and protein sequence analysis.
Outlines
💡 Reflecting on Life-Changing Questions
The speaker shares a personal experience from when they were 19, where a simple question about their future led to the creation of their company, Biotechnica. They encourage the audience to ask a similar question about the future of bioinformatics and whether it’s worth pursuing as a career. The focus shifts to the future potential of bioinformatics, emphasizing the importance of understanding its growing scope.
🔬 Bioinformatics: A Bridge Between Science and Technology
Bioinformatics is introduced as a field at the intersection of biosciences and information technology, providing a unique advantage as both areas grow. The speaker lists the first three key areas that will define the future of bioinformatics: pharmacology and computer-aided drug design (CADD), proteomics, and centralized data analysis. Each of these fields is explained in detail, showing how bioinformatics will expand by leveraging advancements in these areas.
🧬 Expanding Bioinformatics: Cancer Research and Precision Medicine
The speaker continues with three more future developments for bioinformatics: gene therapy and cancer bioinformatics, precision medicine, and agricultural bioinformatics. They explain how bioinformatics plays a critical role in gene therapy for diseases like cancer, precision medicine through gene sequencing, and improving crop resilience in agriculture. These fields are expected to grow, and bioinformaticians will be in high demand to manage the vast amounts of data involved.
🧠 Systems Biology, Genetics, and Genomics in Bioinformatics
Systems biology and bioinformatics are described as complementary fields, working together to understand biological systems through computational models. The speaker then discusses genetics and genomics, focusing on how bioinformatics helps in analyzing DNA and RNA sequences to study diseases, prevent mutations, and understand gene functions. The use of bioinformatics tools accelerates research in these critical areas, allowing for advancements in medicine and genetics.
💉 Vaccine Discovery and Neuroinformatics: Emerging Bioinformatics Applications
The speaker highlights immunoinformatics and vaccine discovery as crucial applications of bioinformatics, especially in the wake of the coronavirus pandemic. They discuss neuroinformatics, a field focused on the nervous system, which is expected to grow in importance. Both fields represent opportunities for bioinformaticians to contribute to medical research and development. The speaker concludes by emphasizing the future growth potential of these emerging fields.
🏭 Industrial Biocatalysis and the Future of Bioinformatics
In this bonus section, the speaker introduces industrial biocatalysis, where bioinformatics helps in discovering new biocatalysts, such as microbial enzymes, through advanced DNA and protein sequencing. This field is another area of exponential growth for bioinformatics. The speaker wraps up by encouraging students to learn bioinformatics and take advantage of certification courses and internships offered by Biotechnica to stay ahead in this rapidly evolving field.
👋 Wrapping Up: Learn Bioinformatics Today!
The speaker concludes by urging viewers to learn bioinformatics, regardless of their background, as it is a computational tool that will grow in importance. They invite viewers to explore Biotechnica's bioinformatics certification courses and internships, which can be attended online. The video ends with a thank you, a call to comment with questions, and a promise to return with more content in the future.
Mindmap
Keywords
💡Bioinformatics
💡Pharmacology and CADD
💡Proteomics
💡Centralized Data Analysis
💡Gene Therapy
💡Precision Medicine
💡Agriculture Bioinformatics
💡Systems Biology
💡Genetics and Genomics
💡Immunoinformatics and Vaccine Discovery
💡Neuroinformatics
💡Industrial Biocatalysis
Highlights
The question 'Where do you want to see yourself 10 years from now?' can be life-changing.
Bioinformatics stands at the intersection of biosciences and information technology, offering a unique advantage.
Pharmacology and computer-aided drug design are key areas where bioinformatics accelerates drug discovery.
Quantum computing is expected to have a significant impact on drug discovery and bioinformatics.
Proteomics, the study of proteins, heavily relies on bioinformatics for data analysis.
Centralized data analysis in bioinformatics is crucial for global scientific collaboration.
Gene therapy and cancer bioinformatics play a role in identifying gene or protein targets for cancer treatment.
Precision medicine utilizes bioinformatics to analyze gene sequencing data for personalized treatment.
Agriculture bioinformatics can contribute to developing pest-resistant and drought-tolerant crops.
Systems biology and bioinformatics work hand in hand to understand biological processes at a systemic level.
Genetics and genomics apply bioinformatics to study DNA-based inheritance and genome structure.
Immunoinformatics and vaccine discovery use bioinformatics to study host-pathogen interactions.
Neuroinformatics involves creating databases for understanding the nervous system and neurological disorders.
Industrial biocatalysis is an application of bioinformatics in discovering new biocatalysts.
Bioinformatics is predicted to grow exponentially, impacting various fields like pharmacology, proteomics, and agriculture.
Biotechnica offers bioinformatics certification courses and online live internships for skill development.
Transcripts
when i was 19 years old
one question came to my mind one day
where i want to see myself 10 years from
now
and this question changed my life
because i
thought about it i worked on it
persistently
and that's how we could build
biotechnica
so this is my favorite question and
today i want to change your life
because i want to tell you the same
thing i want to urge you to
think about the same thing today let us
ask this question
but for bioinformatics where would
bioinformatics field be
in the next 10 years what will be the
future scope of bioinformatics
should you even pursue bioinformatics as
a career
so to answer all those questions we have
to get
started let's get started guys
[Music]
[Music]
now in all my videos i have always
insisted that
you have to stand at the
boundary of arts science
and commerce to achieve success in life
it's not just you perceive one thing
similarly this subject bioinformatics is
one such field
that stands at the boundary of
biosciences and information technology
this overlap gives you a tremendous
advantage over all others because if one
field grows
this field will also grow and that's why
it's a golden opportunity for
all of you now today let me give you
10 pointers which will help you decide
what will be the future of
bioinformatics how would it look like in
the next 10 years
right so starting with
number one pharmacology and cadd
computer aided
drug design so you already know what is
pharmacology
as we all know bioinformatics
accelerates drug discovery drug target
identification
as well as validation it also
facilitates the characterization
of side effects and it helps us
predict drug resistance in fact it is
also used in the
development of biomarkers toxic genomic
and pharmacogenomic both the tools
are used to maximize the therapeutic
benefit of drugs
now in the next 10 years you will see
quantum computing
growing quantum computing growing in
exponentially
and that will help tremendously that
will have a tremendous impact on cit
drug discovery process and of course
bio informatics so this field
is slated to grow on the shoulders of
these fields
number two proteomics noggin
proteomics as you know we all know this
proteomics is the
extensive study of proteins
it covers new scientific studies and
research
on proteomes from the complete level of
intracellular protein profiles
it helps us identify distinct protein
patterns
interaction protein protein interaction
protein activities
protein structures and bioinformatic
tools are help
are used in collecting and organizing
and analyzing these protein sequences
it also helps us in the characterization
of proteins
and their interactions this
process is involved this process of
proteomics
is heavily dependent on bioinformatics
and that means the application of
proteomics
as it will expand bioinformatics will
also expand
in its utility so again bioinformatics
is riding on the shoulder of
proteomics also so the scope is huge
number three centralized data analysis
now i'm sure you have heard of
this term bioinformatics provides
central globally accessible databases
okay that enables several scientists to
submit search and analyze information
[Music]
bioinformatics is even super essential
for the analysis of
data in modern biology as well as
medicine
and this global collaboration which is
going on
is going to grow by leaps and bounds in
the next decade definitely it is going
to grow
so learning bioinformatics at this point
at this stage
will definitely put you on the
international road map of collaboration
right so it makes sense again so these
are the three pointers i gave you
now move on to the fourth one gene
therapy
cancer bioinformatics okay
so cancer is one big research area
gene therapy is a method employed to
prevent cure and treat diseases
by altering the person's gene expression
right you know gene therapy
bioinformatics can be
applied to diseases such as cancer
okay and that is where cancer
bioinformatics comes in it deals with
the organizing
and analyzing data so that important
patterns of trends can be identified
and that too globally right specific
gene or protein
targets which can you know which can be
used to target cancer cells
also can be identified and we all know
how many global companies are investing
in
cancer research today and being an
internationally acclaimed
bioinformatician
you can get job get a job in cancer
research companies as a cancer
bioinformatician
so again you'll ride on the shoulders of
cancer research
number five precision medicine now
precision medicine medicine we know that
bioinformatics is used here as well to
analyze data
from gene sequencing or microarray uh
gene
expression analysis okay in search of
mutations or gene variants
that can affect patients in multiple
ways right
and we also study the response to a
particular drug
or how it modifies the disease prognosis
we all know precision medicine is the
future of medicine
and that means you can play a huge role
in this field as well as a
bioinformation because precision
medicine is still in its
infancy bought shorter it's very small
any field which is it
in its infancy has high chances of
growth
so bioinformatics will again ride on the
shoulders of
precision medicine number six
agriculture bioinformatics now the world
as
we know it today okay so population is
growing
exponentially growing so is the demand
for food crops
now in the future there will be need for
more
pest resistant and drought tolerant
crops as a bioinformatician you can play
a huge role
here in collection and storage of plant
genetic resources using various
bioinformatic tools
you can use these these to manufacture
stronger disease and insect resistant
stress tolerant crops and
it is also it can be used in the
comparative genetics of
models in non-model plant species to
discover
organization of genes with respect to
each other so i believe agree
bioinformatics is the most exciting
field
according to me here you can grow leap
and bounds to the future
i think this is something which you
should seriously consider
number seven systems biology
plus bioinformatics both hand in hand
okay systems biology we know that seeks
to understand how
cells tissues organisms
function okay from perspective of the
system as a whole so how it is actually
working
and then computational system biologists
come into picture they use mathematical
modeling they use mathematical
simulation they use statistical analysis
to gain fundamental understanding of how
this system works
how the biological process works such as
maintenance of homeostasis minimal
requirements required for
any function or system response to
environmental stress in environmental
disturbance
perturbation predicting response to
system stressors and dissecting proteins
and nucleic acid networks everything
is studied under systems biology
implementation of bioinformatics tools
and techniques will help the system
biology
use the computer models to achieve
fast results and it will also help to
validate these predictions
right so that is why i said it will go
hand in hand so if systems biology grows
bioinformatics will also grow number
eight genetics
and genomics now we
all know that genetics is the study of
dna based inheritance right so of course
this is how genes are transferred
and variation of individuals based on
genomics
right now genomics is the study of
structure and
function of the genome now both apply
bioinformatics and computational
techniques
to generate data from dna and rna
sequencing microarrays proteomics
electron microscopy or optical methods
for
nucleic acid structure determination
now that all this can be done under
bioinformatics now this is a lot of
research
there is a lot of research going on in
genomics and genetics to treat diseases
we know that right
elimination of chances of mutation or
alleviate mortality altogether
from humanity that we don't die ever and
with the help of
modern bioinformatic tools we can
accelerate this process
we can accelerate the process of
identification
manipulation and prediction of
desired results right so that is where
bioinformatics comes into picture
again it will ride on this shoulder
number nine
immunoinformatics and vaccine discovery
okay so bioinformatics
can be used here as well now these
methods of bioinformatics can be used to
study
host pathogen interactions
also it can be used to assign functions
to uncharacterized genes which can be
targeted
as candidates in vaccine design
now with the advent of coronavirus
pandemic
and the awareness around it and the
research dollar which is going into
these researches against viruses in the
recent years
which will lead to growth of immuno
informatics
vaccine design and development and this
will
lead to further exponential growth of
the
bioinformatics field as well so you are
going to
ride on the shoulders of vaccine
sciences also
vaccinology also number 10
neuro informatics okay new name
but very important neuroinformatics is a
field involved in creating and
maintaining
web-based accessible database of
experimental
and computational data and
innovative software tools okay which is
essential for
understanding the nervous system in its
normal function and then comparing it
during a
neurological disorder that's what is
neuroinformatics now neuroinformatics
experimental databases
store function and anatomy annotations
of nervous system okay or nervous system
genes
okay and these are acquired through
different methods different
methods such as structural and
functional
magnetic resonance okay mri as well as
fmri now these this is an ascent field
again okay
and we'll see it growing in the coming
years right and like i have said
if it is an ascent field it is going to
grow and you will ride
on the growth point now i have a bonus
point also
industrial biocatalysis now this is an
industrial application of bioinformatics
one of the key focuses during industrial
biocatalysis
is bio catalyst now that is used usually
what a kind of a
microbiol a microbial enzyme now new
technologies of bioinformatics
have played and will in fact continue to
play much and much
significant roles in the industrial
biocatalyst
research responses okay in the waves of
genomic revolution you will see all this
is happening
one of the key application of
bioinformatics in biocatalysis
is discovering and identifying
new biocatalyst through advanced dna
and protein sequence now that can
involve
search comparison and analysis of
internet databases
using different algorithms and softwares
so these are all hardcore bioinformatics
things
which will help you grow so there you
have it
i give you 11 pointers i told you 10 i
gave you 11 pointers today
to predict the exponential growth of
bioinformatics
as a field and justify to you
why you as a student must learn the
basics of bioinformatics
today and to help you do just that
we have biotechnica has a wide area of
bioinformatics certification courses
online live internships which can
be available from home
sit at home and attend these classes all
you need to do is
click on the link given in the
description
and you will get complete access to all
the resources
needed to grow along with this field
even if you're from any other field also
knowing basics is very important because
it's a computational tool
right and this is how we end this video
thank you so much for watching this
video and
i will see you again in the next one
kindly comment below if you have any
questions
and we will try our best to answer all
of them
as soon as possible so see you soon in
our next video
thank you so much take care bye
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