This presentation covers a general introduction to expression vector, its components, types, and its application. Then it covers some of the expression system with examples.
Bacteriophage vectors
Bacteriophage
WHY BACTERIOPHAGE AS A VECTOR?
M13 phage
Genome of m13 phage
Life cycle and dna replication of m13
CONSTRUCTION M13 AS PHAGE VECTOR
M13 MP 2 vector
M13MP7 VECTOR
Selection of recombinants
Lambda replacement vectors
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GENOME OF P1 PHAGE
P1 PHAGE AS VECTOR
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Introduction
Definition
History
Why are the transgenic animals being produced
Transgenic mice
Mice: as model organism
Methods of creation of transgenic mice
knock-out mice
Application of transgenic mice
Conclusion
References
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This presentation covers a general introduction to expression vector, its components, types, and its application. Then it covers some of the expression system with examples.
Bacteriophage vectors
Bacteriophage
WHY BACTERIOPHAGE AS A VECTOR?
M13 phage
Genome of m13 phage
Life cycle and dna replication of m13
CONSTRUCTION M13 AS PHAGE VECTOR
M13 MP 2 vector
M13MP7 VECTOR
Selection of recombinants
Lambda replacement vectors
LAMBDA EMBL 4 VECTOR
P1 PHAGE
GENOME OF P1 PHAGE
P1 PHAGE AS VECTOR
P1 phage vector system
Introduction
Definition
History
Why are the transgenic animals being produced
Transgenic mice
Mice: as model organism
Methods of creation of transgenic mice
knock-out mice
Application of transgenic mice
Conclusion
References
Science and technology of manipulating and improving microbial strains, in order to enhance their metabolic capacities for biotechnological applications, are referred to as strain improvement.
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Cloning.
Discovery.
Molecules need in rDNA technology.
Enzymes.
Vectors.
Procedure or steps involves in rDNA technology.
Application of rDNA technology.
Advantages and disadvantages.
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Since volcanic activity was first discovered on Io from Voyager images in 1979, changes
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Since the loophole-free Bell experiments of 2020 and the Nobel prizes in physics of 2022, critics of Bell's work have retreated to the fortress of super-determinism. Now, super-determinism is a derogatory word - it just means "determinism". Palmer, Hance and Hossenfelder argue that quantum mechanics and determinism are not incompatible, using a sophisticated mathematical construction based on a subtle thinning of allowed states and measurements in quantum mechanics, such that what is left appears to make Bell's argument fail, without altering the empirical predictions of quantum mechanics. I think however that it is a smoke screen, and the slogan "lost in math" comes to my mind. I will discuss some other recent disproofs of Bell's theorem using the language of causality based on causal graphs. Causal thinking is also central to law and justice. I will mention surprising connections to my work on serial killer nurse cases, in particular the Dutch case of Lucia de Berk and the current UK case of Lucy Letby.
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1. SEMINAR ON
1
EVALUATION OF RECOMBINANT PROTEINS
Presented by,
D. Pranitha,
M. Pharmacy 2sem,
Pharmaceutics.
2. CONTENTS
Introduction
Gene expression
Protein Expression and Purification
Production of Recombinant Proteins
Applications
Conclusion
References
2
3. Introduction
• Proteins are the most abundant organic molecules of the living
system. They have significant role in structural and functional
organisation of the cell.
• Proteins that result from the expression of recombinant DNA within
living cells are termed recombinant proteins.
• Recombinant DNA technology involves taking genetic material from
one source and recombining it in vitro with another source followed
by introducing of recombined material into host cell.
• Once a Recombinant DNA is inserted into bacteria, these bacteria
will make protein based on this rDNA.This protein is know as
Recombinant Protein.
3
6. Protein Expression and Purification
• Isolation of genes.
• Insertion of isolated gene to expression vector.
• Transfer of recombinant vector into host cell through
Transformation.
• Identification and isolation of cells containing recombinant
vector.
• Growth of cells through fermentation.
• Isolation and purification of protein.
6
7. Production of Recombinant protein
• There are basically two methods for producing recombinant
proteins.
• One is the molecular Cloning a laboratory method used to make
recombinant DNA.
• The other method is the Polymerase chain reaction used to
proceed the replication of any specific DNA sequence selected .
• The basic difference between the two methods is that molecular
cloning incorporates the replication of the DNA within a living
cell, whereas PCR replicates DNA in the test tube, without
living cells.
7
8. Cloning process
• Gene of interest is cut out with
restriction enzymes (RE)
• Host plasmid (circular
chromosome) is cut with same
RE
• Gene is inserted into plasmid and
ligated with ligase.
• New (engineered) plasmid
inserted into bacterium
(transform)
8
9. Vectors
• Self-replicating DNA molecules used to transfer foreign DNA
segments between host cells.
• An ideal vector should be small in size, with single restriction
endonuclease site.
• Three types of vectors
9
Plasmids
Bacteriophages
Cosmids
10. Plasmids
• Bacteria contain extrachromosomal molecules of DNA
called plasmids which are circular.
• pBR322 of E.coli is most popular and widely used plasmid
vector.
Bacteriophages
• Bacteriophages or simply phages are the viruses that
replicate within the bacteria.
• Phages can accept foreign DNA fragments of 10-20 kb
length.
Cosmids
• These are specialized plasmids containing DNA sequence
namely cos sites.
• Cosmids can carry larger fragments of foreign DNA
compared to plasmids .i.e 20-50kb.
10
.
.
.
11. Polymerize chain reaction
• A method for amplifying DNA segments using cycles of
denaturation, annealing to primers, and DNA polymerase-directed
DNA synthesis
• PCR copies a DNA molecule without restriction enzymes, vectors,
or host cells .
• Faster and easier than conventional cloning.
• First Step in PCR: Denaturation
1. DNA is heated to break the hydrogen bonds between the two
polynucleotide strands.
• Two single-stranded DNA molecules serve as templates.
11
12. Second Step in PCR: Annealing
2. Short nucleotide sequences (primers for DNA replication) are
mixed with the DNA and bind to complementary regions on
single-stranded DNA .
• Takes place at lower temperature.
• Primers are 20-30 nucleotides long, synthesized in the
laboratory.
Third Step in PCR: DNA Synthesis
3. The enzyme Taq polymerase is added to synthesize a
complementary DNA strand.
• Taq is a DNA polymerase from a bacterium found in hot
springs.
• These three steps make up one PCR cycle .
12
13. Production of recombinant Insulin
Insulin
• Insulin is produced by β cells of islets of Langerhans of
pancreas.
• Human insulin contains 51 amino acids ,arranged in two
polypeptide chains.
• The chain A has 21 amino acids while chain B has 30
amino acids both are held together by disulfide bonds.
15. APPLICATIONS
• Several proteins are created from recombinant DNA
(recombinant proteins) and are used in medical applications.
• Hematopoietic growth factor.
• Interferon’s
• Hormones
• Recombinant protein vaccines
• Tissue/bone growth factors and clotting factors
• Biological response modifiers
• Monoclonal/Diagnostic/Therapeutic antibodies
• Recombinant proteins is extensively used in biotechnology,
medicine and research.
15
16. Hematopoietic growth factor
• Product of blood cells in bone marrow of central axial skeleton
is referred to as medullary hematopoiesis.
• While the mechanism of early stages of lineage commitment by
bone marrow to particular type of blood cells remains elusive,
the later stages of this process is driven by hematopoietic
growth factor
• List of factors of recombinant origin
16
Product Company Indication
Thrombopoietin Phamacia Thrombocytopenia
Erythropoietin Amgen Anaemia
Ancestim Amgen Blood cell transplantation
17. Antibody Structure
•Antibodies are immune system-related proteins called
immunoglobulins. Each antibody consists of four
polypeptides– two heavy chains and two light chains
joined to form a "Y" shaped molecule.
•The amino acid sequence in the tips of the "Y" varies
greatly among different antibodies. This variable
region, composed of 110-130 amino acids, give the
antibody its specificity for binding antigen. The
variable region includes the ends of the light and
heavy chains. Treating the antibody with a protease
can cleave this region, producing Fab or fragment
antigen binding that include the variable ends of an
antibody.
•The constant region determines the mechanism used
to destroy antigen. Antibodies are divided into five
major classes, IgM, IgG, IgA, IgD, and IgE, based on
their constant region structure and immune function.
17
19. Interferons
• In 1957 it was noted that infected by viruses produces protein called
Interferon ,viral resistance to native cells.
• Inability to produce sufficient quality and inadequate purity, limits the
clinical use of interferons.
• The problem of both purity and quality were resolved using
recombinant DNA technology.
IFN ι IFN α IFN ω IFN К IFN β IFN γ
IFN- α1 IFN- α2 IFN-α1a IFN- 1bβ
IFN- α2a IFN-α2b
19
Types of recombinant IFN
20. Hormones
• Initially peptide and hormones used clinically were extracted
and purified from animal or human source.
• Since these extraction may also contain animal proteins or
peptides their use can lead to development of antibodies.
• There were limitations on use due to scarcity, contamination
with other peptides and in some cases ineffectiveness.
• By introduction of recombinant DNA techniques,
synthesizing of proteins and peptides takes place.
• In 1982 first recombinant protein hormone , insulin was
introduced in USA.
20
21. List of hormones of recombinant origin
21
Hormones Company Indication
Human chronic gonadotropin Sereno Breast cancer
Leptin Amgen Diabetes mellitus
Thyroid stimulating hormone Genzyme Recurrent thyroid
cancer
22. Electrophoresis
• Most often used technique for
protein products is sodium dodecyl
sulphate polyacrylamide gel
electrophoresis .
• Proteins are denatured by boiling in
the SDS solution. All charges of
protein are masked by negative
charge of dodecyl sulphate.
• Thus protein moves on
polyacrylamide gel strictly on basis
of size of protein molecule.
• This technique is useful for
determining molecular weight of
proteins.
• For visualization of proteins on the
gel reagents used are silver nitrate,
coomassie brilliant blue dye.
22
23. List of products of recombinant origin
Product Company Indication
Alpha-glucosidase Genzyme Pompe’s disease
Interleukin-4 receptor Immunex Asthma
Tumor necrosis factor receptor Immunex Rheumatoid arthritis
Vascular endothelial growth
factor
Genvec Cardiovascular
disorders
HIV vaccine Chiron AIDS
Prostvac Therion Prostate cancer
Neurex Xoma Cystic fibrosis
23
24. CONCLUSION
• Recombinant technology is mostly used in production of
insulin, human growth hormone, vaccines ,Interferons etc.
• Recombinant proteins are used in medical applications,
particularly as medications and vaccines.
• Development of improved drug delivery system.
• Recombinant technology is that it allows introduction of
modifications into proteins at desired positions.
24
25. REFERENCES
• Daan J.A.Crommelin, Robert D.Sindelar. Pharmaceutical
Biotechnology: An Introduction for Pharmacists and Pharmaceutical
Scientists. 2nd Edition. London: Taylor & Francis Routledge; pg no.5-
18
• U.Satyanarayana. Biotechnology ,pg no.75-85;189-198
WEBSITES
http://www.innovateus.net/science/what-are-recombinant-proteins .
http://en.wikipedia.org/wiki/Recombinant_DNA .
http://www.accessexcellence.org/RC/VL/GG/plasmid.php
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