This document discusses gene manipulation and genomic analysis techniques. It begins with an introduction to the speaker's educational and employment background working in biology. The document then outlines the topics to be covered in the course, including recombinant DNA principles and applications, as well as different gene manipulation and genomic analysis techniques that students will discuss in groups. Finally, it provides an overview of various DNA cloning, screening, and sequencing techniques used in genetic engineering and genomic research.
This presentation deals with the introduction of Recombinant DNA Technology. The role of different enzymes. Specifically Restriction endonucleases and roles of various vectors.
The study of the complete set of RNAs (transcriptome) encoded by the genome of a specific cell or organism at a specific time or under a specific set of conditions is called Transcriptomics.
Transcriptomics aims:
I. To catalogue all species of transcripts, including mRNAs, noncoding RNAs and small RNAs.
II. To determine the transcriptional structure of genes, in terms of their start sites, 5′ and 3′ ends, splicing patterns and other post-transcriptional modifications.
III. To quantify the changing expression levels of each transcript during development and under different conditions.
This presentation deals with the introduction of Recombinant DNA Technology. The role of different enzymes. Specifically Restriction endonucleases and roles of various vectors.
The study of the complete set of RNAs (transcriptome) encoded by the genome of a specific cell or organism at a specific time or under a specific set of conditions is called Transcriptomics.
Transcriptomics aims:
I. To catalogue all species of transcripts, including mRNAs, noncoding RNAs and small RNAs.
II. To determine the transcriptional structure of genes, in terms of their start sites, 5′ and 3′ ends, splicing patterns and other post-transcriptional modifications.
III. To quantify the changing expression levels of each transcript during development and under different conditions.
Sequencing genes and genomes in biology. The most important technique available to the molecular biologist is DNA sequencing, by which the precise order of nucleotides in a piece of DNA can be determined
DNA SEQUENCING METHODS AND STRATEGIES FOR GENOME SEQUENCINGPuneet Kulyana
This presentation will give you a brief idea about the various DNA sequencing methods and various strategies used for genome sequencing and much more vital information related to gene expression and analysis
Introduction to RDT methods in genetic engineeringCollege
This presentation gives a small review about the RDT based methods used generally in genetic engineering. This presentation include various images about the technique, which will help the user in understanding the concepts easily.
Making genome edits in mammalian cellsChris Thorne
Looking at the kind of modifications that can be made in mammalian cells, and how at Horizon moving to a haploid model system has significantly improved efficiency of both editing and validation
Title: Sense of Taste
Presenter: Dr. Faiza, Assistant Professor of Physiology
Qualifications:
MBBS (Best Graduate, AIMC Lahore)
FCPS Physiology
ICMT, CHPE, DHPE (STMU)
MPH (GC University, Faisalabad)
MBA (Virtual University of Pakistan)
Learning Objectives:
Describe the structure and function of taste buds.
Describe the relationship between the taste threshold and taste index of common substances.
Explain the chemical basis and signal transduction of taste perception for each type of primary taste sensation.
Recognize different abnormalities of taste perception and their causes.
Key Topics:
Significance of Taste Sensation:
Differentiation between pleasant and harmful food
Influence on behavior
Selection of food based on metabolic needs
Receptors of Taste:
Taste buds on the tongue
Influence of sense of smell, texture of food, and pain stimulation (e.g., by pepper)
Primary and Secondary Taste Sensations:
Primary taste sensations: Sweet, Sour, Salty, Bitter, Umami
Chemical basis and signal transduction mechanisms for each taste
Taste Threshold and Index:
Taste threshold values for Sweet (sucrose), Salty (NaCl), Sour (HCl), and Bitter (Quinine)
Taste index relationship: Inversely proportional to taste threshold
Taste Blindness:
Inability to taste certain substances, particularly thiourea compounds
Example: Phenylthiocarbamide
Structure and Function of Taste Buds:
Composition: Epithelial cells, Sustentacular/Supporting cells, Taste cells, Basal cells
Features: Taste pores, Taste hairs/microvilli, and Taste nerve fibers
Location of Taste Buds:
Found in papillae of the tongue (Fungiform, Circumvallate, Foliate)
Also present on the palate, tonsillar pillars, epiglottis, and proximal esophagus
Mechanism of Taste Stimulation:
Interaction of taste substances with receptors on microvilli
Signal transduction pathways for Umami, Sweet, Bitter, Sour, and Salty tastes
Taste Sensitivity and Adaptation:
Decrease in sensitivity with age
Rapid adaptation of taste sensation
Role of Saliva in Taste:
Dissolution of tastants to reach receptors
Washing away the stimulus
Taste Preferences and Aversions:
Mechanisms behind taste preference and aversion
Influence of receptors and neural pathways
Impact of Sensory Nerve Damage:
Degeneration of taste buds if the sensory nerve fiber is cut
Abnormalities of Taste Detection:
Conditions: Ageusia, Hypogeusia, Dysgeusia (parageusia)
Causes: Nerve damage, neurological disorders, infections, poor oral hygiene, adverse drug effects, deficiencies, aging, tobacco use, altered neurotransmitter levels
Neurotransmitters and Taste Threshold:
Effects of serotonin (5-HT) and norepinephrine (NE) on taste sensitivity
Supertasters:
25% of the population with heightened sensitivity to taste, especially bitterness
Increased number of fungiform papillae
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Title: Sense of Taste
Presenter: Dr. Faiza, Assistant Professor of Physiology
Qualifications:
MBBS (Best Graduate, AIMC Lahore)
FCPS Physiology
ICMT, CHPE, DHPE (STMU)
MPH (GC University, Faisalabad)
MBA (Virtual University of Pakistan)
Learning Objectives:
Describe the structure and function of taste buds.
Describe the relationship between the taste threshold and taste index of common substances.
Explain the chemical basis and signal transduction of taste perception for each type of primary taste sensation.
Recognize different abnormalities of taste perception and their causes.
Key Topics:
Significance of Taste Sensation:
Differentiation between pleasant and harmful food
Influence on behavior
Selection of food based on metabolic needs
Receptors of Taste:
Taste buds on the tongue
Influence of sense of smell, texture of food, and pain stimulation (e.g., by pepper)
Primary and Secondary Taste Sensations:
Primary taste sensations: Sweet, Sour, Salty, Bitter, Umami
Chemical basis and signal transduction mechanisms for each taste
Taste Threshold and Index:
Taste threshold values for Sweet (sucrose), Salty (NaCl), Sour (HCl), and Bitter (Quinine)
Taste index relationship: Inversely proportional to taste threshold
Taste Blindness:
Inability to taste certain substances, particularly thiourea compounds
Example: Phenylthiocarbamide
Structure and Function of Taste Buds:
Composition: Epithelial cells, Sustentacular/Supporting cells, Taste cells, Basal cells
Features: Taste pores, Taste hairs/microvilli, and Taste nerve fibers
Location of Taste Buds:
Found in papillae of the tongue (Fungiform, Circumvallate, Foliate)
Also present on the palate, tonsillar pillars, epiglottis, and proximal esophagus
Mechanism of Taste Stimulation:
Interaction of taste substances with receptors on microvilli
Signal transduction pathways for Umami, Sweet, Bitter, Sour, and Salty tastes
Taste Sensitivity and Adaptation:
Decrease in sensitivity with age
Rapid adaptation of taste sensation
Role of Saliva in Taste:
Dissolution of tastants to reach receptors
Washing away the stimulus
Taste Preferences and Aversions:
Mechanisms behind taste preference and aversion
Influence of receptors and neural pathways
Impact of Sensory Nerve Damage:
Degeneration of taste buds if the sensory nerve fiber is cut
Abnormalities of Taste Detection:
Conditions: Ageusia, Hypogeusia, Dysgeusia (parageusia)
Causes: Nerve damage, neurological disorders, infections, poor oral hygiene, adverse drug effects, deficiencies, aging, tobacco use, altered neurotransmitter levels
Neurotransmitters and Taste Threshold:
Effects of serotonin (5-HT) and norepinephrine (NE) on taste sensitivity
Supertasters:
25% of the population with heightened sensitivity to taste, especially bitterness
Increased number of fungiform papillae
- Video recording of this lecture in English language: https://youtu.be/lK81BzxMqdo
- Video recording of this lecture in Arabic language: https://youtu.be/Ve4P0COk9OI
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- Link to NephroTube website: www.NephroTube.com
- Link to NephroTube social media accounts: https://nephrotube.blogspot.com/p/join-nephrotube-on-social-media.html
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This slide deck presented by Dr. Kami Maddocks, Professor-Clinical in the Division of Hematology and
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STATEMENT OF NEED
Mantle cell lymphoma (MCL) is a rare, aggressive B-cell non-Hodgkin lymphoma (NHL) accounting for 5% to 7% of all lymphomas. Its prognosis ranges from indolent disease that does not require treatment for years to very aggressive disease, which is associated with poor survival (Silkenstedt et al, 2021). Typically, MCL is diagnosed at advanced stage and in older patients who cannot tolerate intensive therapy (NCCN, 2022). Although recent advances have slightly increased remission rates, recurrence and relapse remain very common, leading to a median overall survival between 3 and 6 years (LLS, 2021). Though there are several effective options, progress is still needed towards establishing an accepted frontline approach for MCL (Castellino et al, 2022). Treatment selection and management of MCL are complicated by the heterogeneity of prognosis, advanced age and comorbidities of patients, and lack of an established standard approach for treatment, making it vital that clinicians be familiar with the latest research and advances in this area. In this activity chaired by Michael Wang, MD, Professor in the Department of Lymphoma & Myeloma at MD Anderson Cancer Center, expert faculty will discuss prognostic factors informing treatment, the promising results of recent trials in new therapeutic approaches, and the implications of treatment resistance in therapeutic selection for MCL.
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Explore natural remedies for syphilis treatment in Singapore. Discover alternative therapies, herbal remedies, and lifestyle changes that may complement conventional treatments. Learn about holistic approaches to managing syphilis symptoms and supporting overall health.
Title: Sense of Smell
Presenter: Dr. Faiza, Assistant Professor of Physiology
Qualifications:
MBBS (Best Graduate, AIMC Lahore)
FCPS Physiology
ICMT, CHPE, DHPE (STMU)
MPH (GC University, Faisalabad)
MBA (Virtual University of Pakistan)
Learning Objectives:
Describe the primary categories of smells and the concept of odor blindness.
Explain the structure and location of the olfactory membrane and mucosa, including the types and roles of cells involved in olfaction.
Describe the pathway and mechanisms of olfactory signal transmission from the olfactory receptors to the brain.
Illustrate the biochemical cascade triggered by odorant binding to olfactory receptors, including the role of G-proteins and second messengers in generating an action potential.
Identify different types of olfactory disorders such as anosmia, hyposmia, hyperosmia, and dysosmia, including their potential causes.
Key Topics:
Olfactory Genes:
3% of the human genome accounts for olfactory genes.
400 genes for odorant receptors.
Olfactory Membrane:
Located in the superior part of the nasal cavity.
Medially: Folds downward along the superior septum.
Laterally: Folds over the superior turbinate and upper surface of the middle turbinate.
Total surface area: 5-10 square centimeters.
Olfactory Mucosa:
Olfactory Cells: Bipolar nerve cells derived from the CNS (100 million), with 4-25 olfactory cilia per cell.
Sustentacular Cells: Produce mucus and maintain ionic and molecular environment.
Basal Cells: Replace worn-out olfactory cells with an average lifespan of 1-2 months.
Bowman’s Gland: Secretes mucus.
Stimulation of Olfactory Cells:
Odorant dissolves in mucus and attaches to receptors on olfactory cilia.
Involves a cascade effect through G-proteins and second messengers, leading to depolarization and action potential generation in the olfactory nerve.
Quality of a Good Odorant:
Small (3-20 Carbon atoms), volatile, water-soluble, and lipid-soluble.
Facilitated by odorant-binding proteins in mucus.
Membrane Potential and Action Potential:
Resting membrane potential: -55mV.
Action potential frequency in the olfactory nerve increases with odorant strength.
Adaptation Towards the Sense of Smell:
Rapid adaptation within the first second, with further slow adaptation.
Psychological adaptation greater than receptor adaptation, involving feedback inhibition from the central nervous system.
Primary Sensations of Smell:
Camphoraceous, Musky, Floral, Pepperminty, Ethereal, Pungent, Putrid.
Odor Detection Threshold:
Examples: Hydrogen sulfide (0.0005 ppm), Methyl-mercaptan (0.002 ppm).
Some toxic substances are odorless at lethal concentrations.
Characteristics of Smell:
Odor blindness for single substances due to lack of appropriate receptor protein.
Behavioral and emotional influences of smell.
Transmission of Olfactory Signals:
From olfactory cells to glomeruli in the olfactory bulb, involving lateral inhibition.
Primitive, less old, and new olfactory systems with different path
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É fornecido um conjunto abrangente de recomendações para cuidados durante o período puerperal, com ênfase nos cuidados essenciais que todas as mulheres e recém-nascidos devem receber, e com a devida atenção à qualidade dos cuidados; isto é, a entrega e a experiência do cuidado recebido. Estas diretrizes atualizam e ampliam as recomendações da OMS de 2014 sobre cuidados pós-natais da mãe e do recém-nascido e complementam as atuais diretrizes da OMS sobre a gestão de complicações pós-natais.
O estabelecimento da amamentação e o manejo das principais intercorrências é contemplada.
Recomendamos muito.
Vamos discutir essas recomendações no nosso curso de pós-graduação em Aleitamento no Instituto Ciclos.
Esta publicação só está disponível em inglês até o momento.
Prof. Marcus Renato de Carvalho
www.agostodourado.com
These simplified slides by Dr. Sidra Arshad present an overview of the non-respiratory functions of the respiratory tract.
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2. Chapter 34, Ganong’s Review of Medical Physiology, 26th edition
3. Chapter 17, Human Physiology by Lauralee Sherwood, 9th edition
4. Non-respiratory functions of the lungs https://academic.oup.com/bjaed/article/13/3/98/278874
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6. 重组DNA技术
Once the structure of DNA and the genetic code were
unraveled, it became clear that many deep biological
secrets were locked up in the sequence of bases in DNA.
An avalanche of technical discoveries in the 1970s
drastically changed this perspective and has led to
astounding advances in molecular cell biology in the past
several decades based on the analysis and manipulation of
macromolecules, particularly DNA.
6
7. Cloning is to make
many copies of a
segment of DNA such
as a gene.
DNA is cloned by
inserting a DNA
fragment into a
cloning vector to make
a recombinant DNA
molecule (ex vivo)。
7
13. 相容性的末端
1. Cleavage with two restriction endonucleases that
produce compatible overhangs.
2. Cleavage with two restriction endonucleases that
produce blunt ends.
3. Cleavage followed by fill-in of overhangs to generate
blunt ends.
13
15. Sma I EcoR V
CCCATC
GGGTAG
GATGGG
CTACCC
平端
15
16. Creating blunt ends from sticky cut by
T4 DNA polymerase fill-in
GGATCC
CCTAGG
G
CCTAG
GATCC
G
BamHI
GGATC
CCTAG
GATCC
CTAGG
T4 DNA
polymerase
Open question: Other methods?
16
18. T4 DNA连接酶 (ligase)
The combining of 3’-
and 5’- ends requires
at least one of them is
phosphorelated.
18
19. Reducing self ligation by removing the Pi
from the vector by phosphotase
GGATCC
CCTAGG
G
CCTAG
GATCC
G
BamHI
Pi
Pi
G
CCTAG
GATCC
G
OH
OH
OH
OH
OH
OH
Alkaline Phosphatase,
Calf Intestinal (CIP)
19
20. Chemical synthesized oligoes should be
phosphoryated by T4 polynucleotide kinase
to make it clonable
GATCC
G
OH
OH
T4 PNK
GATCC
G
Pi
OH
20
21. Serial DNA cloning can be used to splice
together a set of DNA fragments derived from
different genes.
21
22. The future
Synthetic genomics combines methods for the
chemical synthesis of DNA with computational
techniques to design it. These methods allow scientists
and engineers to construct genetic material that
would be impossible or impractical to produce
using more conventional biotechnological
approaches. For example, using synthetic genomics
it is possible to design and assemble chromosomes,
genes and gene pathways, and even whole genomes.
J. Craig Venter Institute
22
23. J. Craig Venter institute 一个大型的、多学科的、以基因组为重点的组织
The J. Craig Venter Institute was formed in October 2006 through the
merger of several affiliated and legacy organizations — The Institute for
Genomic Research (TIGR) and The Center for the Advancement of
Genomics (TCAG), The J. Craig Venter Science Foundation, The Joint
Technology Center, and the Institute for Biological Energy Alternatives
(IBEA). Today all these organizations have become one large
multidisciplinary genomic-focused organization. With more than 400
scientists and staff, more than 250,000 square feet of laboratory space,
and locations in Rockville, Maryland and San Diego, California, the new
JCVI is a world leader in genomic research.
23
28. How to select the correct clone
with the insert?
1. Miniprep + RE digestion
2. Blue-white
3. PCR screening
Final step: Confirm by DNA
sequencing
克隆的筛选
28
30. A cloning vector
Need an replication ori
A drug resistance gene for screening
A polylinker for DNA insertion
polylinker inside lacZ+ gene to detect
insertion (cause reading frame change) by
color (blue for lacZ+ and white for
lacZ- )
30
32. Plasmid vectors
containing a
polylinker, or
multiple-cloning-
site sequence,
commonly are
used to produce
recombinant
plasmids
carrying
exogenous DNA
fragments.
32
33. Fragments produced by cleavage of the ≈36kb
DNA genome from adenovirus 2 (Ad2) by
EcoRI and another restriction enzyme, HindIII
33
34. Isolation of DNA fragments from a mixture
by cloning in a plasmid vector
Clean up contamination?
34
35. Use DNA as a vector
An head can pack ~37-52 kb of DNA
Can carry as much as 15 kb foreign DNA
35
38. Vector Type Cloned DNA
(kb)
Plasmid 20
phage 25
Cosmid 45
P1 phage 100
BAC (bacterial artificial
chromosome)
300
YAC (yeast artificial chromosome) 1000
Approximate Maximum Length of
DNA That Can Be Cloned in Vectors
39
40. YAC--yeast artificial chromosome
Eukaryotic chromosome replication requires: two
telomeres, centromere and the origin of replication
YAC contains: telemeres (TEL), centromere (CEN),
selectable markers (TRP1 and URA3), origin of
replication (ARS), polylinker.
YAC can carry DNA fragments of hundreds of kp, used
for creating genomic mapping (physical)
41
41. Shuttle vectors
Shuttle vectors are
those that can replicate
in more than one
organisms
An E.coli/yeast shuttle vector
Clone construction use E.coli,
later use shuttle vector to
introduce cloned gene into
Eukaryotic cells
42
43. What is a Genomic Library
A collection of clones that contains (at
least) one copy of every DNA sequence in a
genome
How to construct a genomic library
1. Complete/partial digestion of genomic DNA
2. Clone each fragment into a vector
3. Transform host organism
Considerations: the density of digestion sites.
Sequences that may affect vector replicating
44
44. Production of overlapping restriction
fragments by partial digestion of human
genomic DNA with Sau3A
45
46. chromosome library
Individual chromosomes can be separated by morphologies and sizes.
Once the chromosomes have been sorted and collected, a library of
each chromosome type can be made.
The dyes usually selected are Hoechst
33258, which shows a preference for AT-
rich regions, and chromomycin A3, which
binds to GC-rich regions. A cytometer with
two high-powered argon-ion lasers is
required; one laser is tuned to give UV to
excite the Hoechst dye (blue fluorescence)
and the other to 458 nm to excite the
chromomycin A3 (green fluorescence).
Hoechst 33258为非嵌人性荧光染料,在活细胞中DNA聚AT序列富集区域的小沟处与
DNA结合。活细胞或固定细胞均可从低浓度溶液中摄取该染料。从而使细胞核着色。
故又把此类染料称为DNA探针。Hoechsr-DNA的激发和发射波长分别460nm和550nm
。在荧光显微镜紫外光激发时,Hoechst-DNA发出亮蓝色荧光。需要一个带有两个高
功率氩离子激光器的细胞仪 47
48. PFGE: Pulsed field gel electrophoresis
脉冲场凝胶电泳
在普通的凝胶电泳中,大的DNA分子(>10kb)移动速度接近,很难分离形成
足以区分的条带。在脉冲场凝胶电泳中,电场不断在两种方向(有一定夹角,
而不是相反的两个方向)变动。DNA分子带有负电荷,会朝正极移动。相对较
小的分子在电场转换后可以较快转变移动方向,而较大的分子在凝胶中转向较
为困难。因此小分子向前移动的速度比大分子快。脉冲场凝胶电泳可以用来分
离大小从10kb到10Mb的DNA分子。
49
49. Synthesis of cDNA library
What is cDNA: complementary
DNA made from RNA
cDNAgene: promoter region+exons+
introns
Procedure (mRNA cDNA as an example)
1. The enriching of mRNA
2. Oligo dT as primer
3. Reverse transcriptase--cDNA
4. mRNA degradation
5. Making dsDNA
6. Clone into vector
50
52. Why use N(dT) as a primer?
How to clone an intact RNA?
Why not use anti-m7G CAP IP to purify mRNA?
53
53. Primer Extension
Primer extension works to determine exactly
the 5’-end of a transcript to single-nucleotide
accuracy
Specificity of this method is due to
complementarity between primer and transcript
S1 mapping will give similar results but has
limits:
S1 will “nibble” ends of RNA-DNA hybrid
Also can “nibble” A-T rich regions that have melted
Might not completely digest single-stranded regions
(S1 nuclease: digest ss DNA or RNA, not works on dsDNA,
dsRNA, DNA-RNA)
5-54
54. Primer Extension Schematic
Start with in vivo transcription,
harvest cellular RNA
containing desired transcript
Hybridize labeled
oligonucleotide [18nt] (primer)
Reverse transcriptase extends
the primer to the 5’-end of
transcript
Denature the RNA-DNA
hybrid and run the mix on a
high-resolution DNA gel
Can estimate transcript
concentration also
5-55
56. Removing rRNAs
Ribo-Zero kit (Epicenter)
Ribominus kit (Invitrogen)
remove ribosomal RNA (rRNA) using a hybridization/bead
capture procedure that selectively binds rRNA species
using biotinylated capture probes. The probe: rRNA hybrid
is then captured by magnetic beads and removed using a
magnet, leaving the desired rRNA-depleted RNA in solution.
Gel purification
57
63. Use of expression cloning to identify a cloned DNA based
on binding of the encoded protein to a specific antibody
64. A simple E. coli expression vector
utilizing the lac promoter
65. Two-step expression vector system based on
bacteriophage T7 RNA polymerase and T7 late
promoter.
Toxic proteins
66. Separation of DNA fragments of
different lengths by gel
electrophoresis
67. The Southern blot
A technique for detecting the presence of specific DNA sequences following gel
electrophoresis of a complex mixture of restriction fragments.
Southern印迹由Edwin Southern于1975年推出,
是一种检测DNA样品中特定DNA序列的方法
68. Radiolabeling of an oligonucleotide at the 5’ and with phosphorus-32
Radiolabeling of an DNA probe by random priming
69. Mapping the multiple copies
of the recognition site for a
given restriction enzyme in a
DNA fragment.
70. Mapping the recognition sites for two restriction
enzymes relative to each other in a DNA fragment
containing one copy of each site.
77. Maxam-Gilbert sequencing (chemical cleavage method
using double-stranded (ds) DNA)
1. Double-stranded DNA to be sequenced is labelled by attaching a
radioactive phosphorus (32P) group to the 5' end.
2. Using dimethyl sulphoxide and heating to 90oC, the two strands of the DNA
are separated and purified
3. Single-stranded sample is split into separate samples and each is treated
with one of the cleavage reagents.
4. If reactions have been arranged to give only one, or a few, cleavages per
DNA molecule, a nested set of end-labelled DNA fragments of different
lengths is produced.
5. The samples are run together on a sequencing gel which separates the
fragments by electrophoresis depending on their size. DNA bands in the gel
are visualized by autoradiography
6. The DNA sequence is read directly from the gel
78. The Maxam-Gilbert method of
nucleotide sequence
determination is based on
preferential, base-specific
methylation followed by chemical
cleavage to generate a nested
set of end- labeled derivatives.
79. Base specificity
Chemical used for
base alteration
Chemical used for
altered base
removal
Chemical used for
strand cleavage
G Dimethylsulphate Piperidine Piperidine
A+G Acid Acid Piperidine
C+T Hydrazine Piperidine Piperidine
C Hydrazine + alkali Piperidine Piperidine
A>C Alkali Piperidine Piperidine
80.
81. Sanger-Coulson sequencing (chain termination method
using single-stranded (ss) DNA)
1. Sample DNA to be sequenced is cloned into M13 vector DNA to generate ssDNA.
2. A short oligonucleotide primer (usually chemically synthesized and sometimes
labelled ) is added to the ss recombinant DNA.
3. DNA polymerase is then added in the presence of: 4 normal nucleotides: d-ATP, d-
CTP, d-GTP and d-TTP and a low concentration of 4 analogues of the normal
nucleotides (ddNTP, one of which are labelled with 32P) in separate incubation mixes.
4. Complementary strand synthesis occurs away from the primer.
5. Each of the 4 mixes is run together on a sequencing gel which separates the
fragments by electrophoresis depending on their size. DNA bands in the gel are
visualized by autoradiography.
6. The DNA sequence is read directly from the gel in a similar way to a Maxam-Gilbert
sequencing gel.
86. AUTOMATED DNA SEQUENCING
It is based on the Sanger-Coulson chain termination method but the 4 different
dideoxy nucleotides (ddA, ddC, ddG and ddT) are fluorescently labelled.
4 different fluorophores are used, all 4 reactions can be run in the same tube.
93. metagenomics is the
sequencing and analysis of
DNA of microorganisms
recovered from an environment,
without the need for culturing
them.
94. 可同时对数百万个短序列读长进行测序,
从大规模平行信号测序(MPSS, Brenner
et al.2000),到454焦磷酸测序法
( Margulies et al.2005),illumina边合成
边测序(sequencing by synthesis,
SBS),SOLiD连接法测序,Ion Torrent
利用离子敏感场效应晶体管检测pH值变
化的合成测序法,华大智造联合探针锚
定合成测序法(combinatorial probe-
anchor synthesis,cPAS)
1. 454 pyrosequencing
2. Illumina (Solexa) sequencing
3. SOLiD sequencing
4. ION Torrent
Next Generation Sequencing
HUMAN GENOME PROJECT 1990
95. 454 Sequencing, based on sequencing-by-synthesis
Nucleotides are flowed sequentially in a fixed order across the
PicoTiterPlate device during a sequencing run.
During the nucleotide flow, hundreds of thousands of beads each carrying
millions of copies of a unique single-stranded DNA molecule are sequenced
in parallel.
If a nucleotide complementary to the template strand is flowed into a well,
the polymerase extends the existing DNA strand by adding nucelotide(s).
Addition of one (or more) nucleotide(s) results in a reaction that generates a
light signal that is recorded by the CCD camera in the instrument.
The signal strength is proportional to the number of nucleotides incorporated
in a single nucelotide flow.
97. Addition of one of the four dNTPs, DNA
polymerase incorporates the correct,
complementary dNTPs onto the template.
This incorporation releases
pyrophosphate (PPi) stoichiometrically.
ATP sulfurylase quantitatively converts
PPi to ATP in the presence of adenosine
5´ phosphosulfate.
This ATP acts as fuel to the luciferase-
mediated conversion of luciferin to
oxyluciferin that generates visible light in
amounts that are proportional to the
amount of ATP. The light produced in the
luciferase-catalyzed reaction is detected
by a camera.
Unincorporated nucleotides and ATP are
degraded by the apyrase, and the
reaction can restart with another
nucleotide.
ssDNA template is hybridized to a sequencing primer and incubated with the
enzymes DNA polymerase, ATP sulfurylase, luciferase and apyrase, and with
the substrates adenosine 5´ phosphosulfate (APS) and luciferin.
106. Ion Torrent
If a nucleotide matches,
a H+ is released.
If a nucleotide does not
match, no H+ released.
If two bases are incorporated,
two H+ are released.
108. Third Generation Sequencing
DNA sequencing methods currently under development include
labeling the DNA polymerase, reading the sequence as a DNA
strand transits through nanopores, and microscopy-based
techniques, such as AFM or transmission electron microscopy
that are used to identify the positions of individual nucleotides
within long DNA fragments (>5,000 bp) by nucleotide labeling
with heavier elements (e.g., halogens) for visual detection and
recording. (No amplification)
121. Genetic mapping of a genome
Genetic map is a representation of the genetic distance
separating genes derived from the frequency of genetic
recombination between the genes
Genetic mapping is the process of locating genes to
chromosomes and assigning their relative genetic distances
from other known genes
Genetic crosses
Pedigree analysis
122. Some DNA sequence changes that produce a
restriction fragment length polymorphism (RFLP)
125. Physical mapping of a genome
Physical map is a map of genetic markers made by
analyzing genomic DNA directly, to supplement the
genetic map
Cytogenetic map: chromosomal banding patterns
FISH (fluorescent in situ hybridization) map
Restriction map
Radiation hybrid maps
Clone contig maps
127. FISH (fluorescent in situ hybridization) map
An example of the
results of FISH in
which fluorescently
tagged DNA probes
were hybridized to
human metaphase
chromosomes
128. Restriction map
Using rescriction enzymes that cut rarely.
Such as NotI, recognition sequence:
5’-GCGGCCGC-3’
3’-CGCCGGCG-5’
For a genome with 50% GC content, this enzyme would cut on
average once every 48 = 65,536 bp. There is a 1 in 4 chance
of G in the first position, a 1 in 4 chance of a C in the second
position, and so on.
129. Making a radiation hybrid
Human cells are irradiated by X rays
to fragment the chromosomes. The
cells are killed, but the chromosome
fragments are rescued by fusing the
irradiated cells with rodent cells.
The chromosome fragments
become integrated into the rodent
chromosomes.
Radiation hybrid maps
The closer two markers are, the
greater the probability those markers
will be on the same DNA fragment
and therefore end up in the same RH.
130. Clone contig maps
A representative YAC contig map assembled by STS mapping
STS:
Sequence-tagged site
131. The direct shotgun approach to obtaining the genomic DNA sequence
of an organism
133. Genomics is the development and
application of new mapping, sequencing,
and computational procedures for the
analysis of the entire genome of organism.
Structural genomics
Functional genomics
Comparative genomics
134. Mapping approach
Genetic mapping of a genome
Genetic markers for genetic mapping experiments
Restriction fragment length polymorphisms (RFLPs)
Variable number of tandem repeats (VNTRs)
short tandem repeats (STRs)
Single nucleotide polymorphisms (SNPs)
137. Making microarray by synthesis
Affymetrix公司率先开发了寡聚核苷酸原位光刻技术,并申请相关专利。它是
生产高密度寡核苷酸基因芯片的核心关键技术。该技术的最大优点在于用很少
的步骤可合成大量的DNA阵列(主要步骤:固基羟基化-光敏基团保护-避光膜
透光聚合-光照活化-碱基结合-反应合成-不断循环)
140. Comparison of DNA Chip Technologies
Sensitivity of DNA chip based assays is a function of:
Probe and target DNA/RNA (Complexity)
Chip surface (autofluorescence & non-spec. bkg)
Attachment chemistry/methodology (hyb. efficiency &
crosshyb.)
Hybridization efficiency (lots of factors)
Detection technology (signal type, efficiency, noise)
Oligo-Chip cDNA-Chip Genomic Chip
8 n or 20 n < 2,000 n > 50,000 n
sequencing expression expression genomic analysis
150. Frontiers in Biology 2012, Vol. 7 i ssue (4):
336-349 https://doi.org/10.1007/s11515-012-
1236-9
Functional protein microarray:
an ideal platform for
investigating protein binding
property