SlideShare a Scribd company logo

Genetics in psychobiology

Download as PPTX, PDF
J
jasleenbrar03

Genetics in psychobiology

Education
1 of 30
GENETICS IN PSYCHOBIOLOGY
Introduction • Psychiatric genetics, a subfield of behavioral neurogenetics, studies the role of genetics in psychological conditions such as alcoholism, schizophrenia, bipolar disorder, and autism • Psychiatric genetics is a somewhat new name for an old question, "Are behavioral and psychological conditions and deviations inherited". The goal of psychiatric genetics is to better understand the etiology of psychiatric disorders, to use that knowledge to improve treatment methods, and possibly also to develop personalized treatments based on genetic profiles. • In other words, the goal is to transform parts of psychiatry into a neuroscience-based discipline.
History • Research on psychiatric genetics began in the late nineteenth century with Francis Galton (a founder of psychiatric genetics) who was motivated by the work of Charles Darwin and his concept of desegregation. • These methods of study later improved due to the development of more advanced clinical, epidemiological, and biometrical research tools. • Better research tools were the precursor to the ability to perform valid family, twin, and adoption studies. Researchers learned that genes influence how these disorders manifest and that they tend to aggregate in families.
Genome • The genome is the entirety of an organism's hereditary information. It is encoded either in DNA or, for many types of viruses, in RNA. The genome includes both the genes and the non-coding sequences of the DNA/RNA • An analogy to the human genome stored on DNA is that of instructions stored in a book: • The book (genome) would contain 23 chapters (chromosomes); • Each chapter contains 48 to 250 million letters (A,C,G,T) without spaces; • Hence, the book contains over 3.2 billion letters total; • The book fits into a cell nucleus the size of a pinpoint; • At least one copy of the book (all 23 chapters) is contained in most cells of our body. The only exception in humans is found in mature red blood cells which become enucleated during development and therefore lack a genome.
DNA • Deoxyribonucleic acid (DNA) is a molecule that encodes the genetic instructions used in the development and functioning of all known living organisms and many viruses. • DNA is a nucleic acid; alongside proteins and carbohydrates, nucleic acids compose the three major macromolecules essential for all known forms of life. Most DNA molecules are double-stranded helices, consisting of two long biopolymers made of simpler units called nucleotides—each nucleotide is composed of a nucleobase (guanine, adenine, thymine, and cytosine), recorded using the letters G, A, T, and C, as well as a backbone made of alternating sugars (deoxyribose) and phosphate groups (related to phosphoric acid), with the nucleobases (G, A, T, C) attached to the sugars. • DNA is well-suited for biological information storage. •
RNA • Ribonucleic acid (RNA) perform multiple vital roles in the coding, decoding, regulation, and expression of genes. • Like DNA, RNA is assembled as a chain of nucleotides, but is usually single-stranded. Cellular organisms use messenger RNA (mRNA) to convey genetic information (often notated using the letters G, A, U, and C for the nucleotides guanine, adenine, uracil and cytosine) that directs synthesis of specific proteins, while many viruses encode their genetic information using an RNA genome. • Some RNA molecules play an active role within cells by catalyzing biological reactions, controlling gene expression, or sensing and communicating responses to cellular signals. •
Gene • A gene is the molecular unit of heredity of a living organism. • Living beings depend on genes, as they specify all proteins and functional RNA chains. • Genes hold the information to build and maintain an organism's cells and pass genetic traits to offspring. • All organisms have many genes corresponding to various biological traits, some of which are immediately visible, such as eye color or number of limbs, and some of which are not, such as blood type, increased risk for specific diseases, or the thousands of basic biochemical processes that comprise life.
RNA genes and genomes in the world- • When proteins are manufactured, the gene is first copied into RNA as an intermediate product. In other cases, the RNA molecules are the actual functional products. • For example, RNAs known as ribozymes are capable of enzymatic function, and microRNA has a regulatory role. The DNA sequences from which such RNAs are transcribed are known as RNA genes. • Some viruses store their entire genomes in the form of RNA, and contain no DNA at all. Because they use RNA to store genes, their cellular hosts may synthesize their proteins as soon as they are infected and without the delay in waiting for transcription. • On the other hand, RNA retroviruses, such as HIV, require the reverse transcription of their genome from RNA into DNA before their proteins can be synthesized. • In 2006, French researchers came across a puzzling example of RNA-mediated inheritance in mice. Mice with a loss-of-function mutation in the gene Kit have white tails. Offspring of these mutants can have white tails despite having only normal Kit genes. The research team traced this effect back to mutated Kit RNA.
Chromosomes • The total complement of genes in an organism or cell is known as its genome, which may be stored on one or more chromosomes; the region of the chromosome at which a particular gene is located is called its locus. • A chromosome consists of a single, very long DNA helix on which thousands of genes are encoded.
DNA and Human Genome Project • The history of biology was altered forever by the launching of the Human Genome Project, a research program that has characterized the complete set of genetic instructions of the human. Science is showing that the complexity of human emotions and behaviour is governed by a variety of genes and their interplay with each other, environmental factors, personality and life experiences (Cole et al, 2010). • Determined of the DNA sequence for the human gene was completed in April 2003, marking the end of the Human Genome Project, 2 years ahead of schedule. One of the most daunting challenges remaining is that of understanding how all the parts of cells- genes, proteins and many other molecules work together to create complex living organisms in heath and illness (NHGRI, 2011) • Insights gained from the human DNA sequence: • The human genome contains 3 billion nucleotide bases (A, C, T, G), combinations of which comprise all genetic codes. The average gene has 3000 bases. Humans have about 30,000 genes (one third as many as previously thought), the same number as found in a laboratory mouse.
• The functions of more than 50% of the discovered genes are still unknown, • The human genome sequence is almost (99%) exactly the same in all people. • Slight variations in DNA sequence can have a major impact on the manifestation of a disease process and on responses to environmental factors, such as presence of microbes, toxins and drugs. • Single-nucleotide polymorphisms (SNPs) are sites in the human genome where individuals differ in their DNA sequence, often only by a single base. Sets of SNPs on the same chromosome are inherited in blocks and may help determine the etiology of disease as well as the efficacy of new treatments.
• The genome, an organism’s complete set of DNA instructions, is organized into chromosomes, which contain many genes, the basic physical and functional units of heredity. Genes are specific sequence of bases that encode instructions on how to make proteins, which are large, complex molecules made up of amino acids. It is the proteins that perform most life functions and constitute the majority of cellular structures. • Genetic mapping, also called linkage mapping. It can offer firm evidence that a disease transmitted from parent to child is linked to one or more genes, and it provides clues as to which chromosomes contain the gene and where the gene is on the chromosome. • Genetic testing is a commercial medical application of the new genetic discoveries, used to diagnose disease, confirm a diagnosis, provide prognostic information about the course of a disease, confirm the existence of a disease in symptomatic individuals, and detect predispositions to disease in healthy individuals and their offspring.
Human genetic variation • Human genetic variation is the genetic differences both within and among populations. • No two humans are genetically identical. Even monozygotic twins, who develop from one zygote, have infrequent genetic differences due to mutations occurring during development and gene copy number variation. • Differences between individuals, even closely related individuals, are the key to techniques such as genetic fingerprinting. Alleles occur at different frequencies in different human populations, with populations that are more geographically and ancestrally remote tending to differ more. • Causes of differences between individuals include the exchange of genes during meiosis and various mutational events.
• There are at least two reasons why genetic variation exists between populations. • Natural selection may confer an adaptive advantage to individuals in a specific environment if an allele provides a competitive advantage. Alleles under selection are likely to occur only in those geographic regions where they confer an advantage. • The second main cause of genetic variation is due to the high degree of neutrality of most mutations. Most mutations do not appear to have any selective effect one way or the other on the organism. The main cause is genetic drift, this is the effect of random changes in the gene pool. In humans, founder effect and past small population size (increasing the likelihood of genetic drift) may have had an important influence in neutral differences between populations.
• Measures of variation- Genetic variation among humans occurs on many scales, from gross alterations in the human karyotype to single nucleotide changes. • Nucleotide diversity is the average proportion of nucleotides that differ between two individuals. The human nucleotide diversity is estimated to be 0.1% to 0.4% of base pairs. A difference of 1 in 1,000 amounts to approximately 3 million nucleotide differences, because the human genome has about 3 billion nucleotides.
• Single nucleotide polymorphisms- A single nucleotide polymorphism (SNP) is difference in a single nucleotide between members of one species that occurs in at least 1% of the population. It is estimated that there are 10 to 30 million SNPs in humans. • SNPs are the most common type of sequence variation, estimated to comprise 90% of all sequence variations. Other sequence variations are single base exchanges, deletions and insertions. • A functional, or non-synonymous, SNP is one that affects some factor such as gene splicing or messenger RNA, and so causes a phenotypic difference between members of the species. About 3% to 5% of human SNPs are functional. Neutral, or synonymous SNPs are still useful as genetic markers in genome-wide association studies, because of their sheer number and the stable inheritance over generations. • A coding SNP is one that occurs inside a gene. They occur due to segmental duplication in the genome. These SNPs result in loss of protein, yet all these SNP alleles are common and are not purified in negative selection.
Genes, brain, and behaviour: • Based on family, twin and adoption studies, it is apparent that both genetic and environmental factors play important roles in the normal development of temperament, personality and attitudes as well as in the pathogenesis of major mental disorders. • Before the advent of molecular genetics, human behavioural genetics, including investigations of mental illness, were limited to quantitative analyses of twin studies, adoption studies and multigenerational family designs that attempted to discriminate genetic from nongenetic influences on behavioural phenotypes and to determine the modes of inheritance.
• The fundamental challenges facing psychiatric genetics are the difficulty of defining phenotypes and the apparently large number of genetic and nongenetic risk factors involved in producing mental illness phenotypes. Gene-environment interaction may play a role not only in the initial expression of mental disorders but also in their course.
Heritability and Genetics • The term genotype refers to the total set of genes present in an individual at the time of conception, and coded in the DNA. The physical manifestations of a particular genotype are designated by characteristics that specify a specific phenotype. • Examples of phenotype include eye colour, height, blood type, and language and hair type. • As evident by the examples presented, phenotypes are not only genetic but may also be acquired i.e. influenced by the environment, or a combination of both. I is likely that many psychiatric disorders are the result of a combination of genetics and environmental influences.
• Investigators who study the etiological implications for psychiatric illness may explore several risk factors. Studies to determine if an illness is familial compare the percentage of family members with the illness to those in the general population or within a control group of unrelated individuals. These studies estimate the prevalence of psychopathology among relatives, and make predictions about the predictions about the predisposition to an illness based on familial risk factors. •
• Schizophrenia, bipolar disorder, major depression, anorexia nervosa, panic disorder, somatisation disorder, antisocial personality disorder and alcoholism are examples of psychiatric illness in which familial tendencies have been indicated. • Most psychiatric disorders are highly heritable; the estimated heritability for bipolar disorder, schizophrenia, and autism (80% or higher) is much higher than that of diseases like breast cancer and Parkinson disease. Having a close family member affected by a mental illness is the largest known risk factor, to date. However, linkage analysis and genome-wide association studies have found few reproducible risk factors.
• Studies that are purely genetic in nature search for a specific gene that is responsible for an individual having a particular illness. A number of disorders exist in which the mutation of a specific gene or change in the number or structure of a chromosome has been associated with the etiology. • Examples include Huntington’s disease, cystic fibrosis, phenylketonuria and Down syndrome. • Heterogeneity is an important factor to consider when dealing with genetics. Two types of heterogeneity have been identified in association with psychiatric genetics: causal and clinical. Causal heterogeneity refers to a situation in which two or more causes can independently induce the same clinical syndrome. Clinical heterogeneity refers to when a single cause can lead to more than one clinical syndrome.
• In addition to familial and purely genetic investigations, other types of studies have been conducted to estimate the existence and degree of genetic and environmental contributions to the etiology of certain psychiatric disorders. Twin studies and adoption studies have been successfully employed for this purpose. • Twin studies examine the frequency of a disorder in monozygotic (genetically identical) and dizygotic (fraternal; not genetically identical) twins. Twins are called concordant when both members suffer from the same disorder in question. Concordance in monozygotic twins is considered stronger evidence of genetic involvement than it is in dizygotic twins. Disorders in which twin studies have suggested a possible genetic link include alcoholism, schizophrenia, major depression, bipolar disorder, anorexia nervosa, panic disorder, and obsessive- compulsive disorder (Baker, 2004; Gill, 2004)
• Adoption studies allow comparisons to be made of the influences of genetics versus environment on the development of a psychiatric disorder, Knowles (2003) describes the following four types of adoption studies that have been conducted: • The study of adopted children whose biological parent(s) had a psychiatric disorder but whose adoptive parent(s) did not. • The study of adopted children whose adoptive parent(s) had a psychiatric disorder but whose biological parent(s) did not. • The study of adoptive and biological relatives of adopted children who developed a psychiatric disorder. • The study of monozygotic twins reared apart by different adoptive parents. • • Disorders in which adoption studies have been suggested a possible genetic link include alcoholism, schizophrenia, major depression, bipolar disorder, attention-deficit/ hyperactivity disorder and antisocial personality disorder (Knowles, 2003).
• The search for the genes that cause mental illness has been challenging and has stimulated scientific, political and clinical debate (Kendler, 2005). • An example of a genetically heterogeneous (caused by more than one gene) disorder is the rare form of Alzheimer disease that affects people before age 65 years. Early onset AD affects only about 10% of cases and seems to be linked to mutations in any of three specific genes responsible for amyloid-beta, causing excess deposits of this substance in the brains of the persons with AD. • Current research on the genetics of mental health and illness is confirming the genetic transmission of mental illness but also confronting many challenges. One challenge is the chronic nature of many mental illnesses and the gradual increase of symptoms and behavioural problems over time, also challenging is the length of time required for therapeutic effects of many treatments (Tsankova et al, 2007).
• The proteins surrounding DNA affect which portions of the DNA strand are accessible for transcription. This manipulation of DNA can affect gene activity but does not alter the genetic code. Another complication is that psychiatric illnesses are not caused by simple genetic mechanisms but rather by small, cumulative effects from multiple genes (Kendler, 2006; Baum et al,2007)
• The proposed uses of genetics in psychiatry include the following: • Developing new drugs that will target molecular regulators of gene expression that control neuroproteins and neuroenzymes in brain regions shown to be abnormal in a particular psychiatric illness. • Conducting gene therapy- the introduction of genes into existing cells to prevent or cure disease. • Implementing studies that use ‘candidate genes’ (cloned human genes that are functionally related to the disease of interest) in research procedures in the laboratory.
Implications for Nursing • It is important for nurses to understand the interaction between biological and behavioural factors in the development and management of mental illness. • The nurse should have clear understanding of the genetic influences i.e. the hereditary factors that predispose individuals to certain psychiatric disorders. • The nurse should be in the position to answer questions from patients and families about the genetics of mental illness and to educate them about the accuracy and limitations of current testing procedures (Braff and Freedman, 2008; Gottesmann et al, 2011; Lea et al, 2011). • The nurse can objectively share the current evidence while reminding them that this information is often preliminary, yet growing.

Recommended

Genetics in Psychiatry
Genetics in PsychiatryGenetics in Psychiatry
Genetics in PsychiatryDr. Sriram Raghavendran
 
Psychoneuroimmunology
PsychoneuroimmunologyPsychoneuroimmunology
PsychoneuroimmunologyMental Health Center
 
Unit 2 Biopsychology PowerPoint
Unit 2 Biopsychology PowerPointUnit 2 Biopsychology PowerPoint
Unit 2 Biopsychology PowerPointMrTimBradley
 
Somatoform & sleep disorder
Somatoform & sleep disorderSomatoform & sleep disorder
Somatoform & sleep disorderHarshitha Poojary
 
The Prodrome of Schizophrenia
The Prodrome of SchizophreniaThe Prodrome of Schizophrenia
The Prodrome of SchizophreniaPallav Pareek
 
Concepts of psycho biology
Concepts of psycho biology Concepts of psycho biology
Concepts of psycho biology kajal chandel
 
Community psychology
Community psychologyCommunity psychology
Community psychologyS B.B
 
Clinical interviewing
Clinical interviewingClinical interviewing
Clinical interviewingMuhammad Musawar Ali
 

Recommended

Genetics in Psychiatry
Genetics in PsychiatryGenetics in Psychiatry
Genetics in PsychiatryDr. Sriram Raghavendran
 
Psychoneuroimmunology
PsychoneuroimmunologyPsychoneuroimmunology
PsychoneuroimmunologyMental Health Center
 
Unit 2 Biopsychology PowerPoint
Unit 2 Biopsychology PowerPointUnit 2 Biopsychology PowerPoint
Unit 2 Biopsychology PowerPointMrTimBradley
 
Somatoform & sleep disorder
Somatoform & sleep disorderSomatoform & sleep disorder
Somatoform & sleep disorderHarshitha Poojary
 
The Prodrome of Schizophrenia
The Prodrome of SchizophreniaThe Prodrome of Schizophrenia
The Prodrome of SchizophreniaPallav Pareek
 
Concepts of psycho biology
Concepts of psycho biology Concepts of psycho biology
Concepts of psycho biology kajal chandel
 
Community psychology
Community psychologyCommunity psychology
Community psychologyS B.B
 
Clinical interviewing
Clinical interviewingClinical interviewing
Clinical interviewingMuhammad Musawar Ali
 
Neurobiology of memory
Neurobiology of memoryNeurobiology of memory
Neurobiology of memorySWATI SINGH
 
Introduction to biopsychology 2.0
Introduction to biopsychology 2.0Introduction to biopsychology 2.0
Introduction to biopsychology 2.0Suresh Kumar Murugesan
 
Therapeutic goals assumptions and steps of psychoanalytic therapy
Therapeutic goals assumptions and steps of psychoanalytic therapyTherapeutic goals assumptions and steps of psychoanalytic therapy
Therapeutic goals assumptions and steps of psychoanalytic therapyGeetesh Kumar Singh
 
Genetics In Psychiatry
Genetics In PsychiatryGenetics In Psychiatry
Genetics In PsychiatryFrank Meissner
 
Biopsychosocial
BiopsychosocialBiopsychosocial
BiopsychosocialMimi Abesamis
 
Psychoneuroimmunology
PsychoneuroimmunologyPsychoneuroimmunology
PsychoneuroimmunologySagnikaPanda
 
Trauma and stress related disorders
Trauma and stress related disorders Trauma and stress related disorders
Trauma and stress related disorders Muhammad Musawar Ali
 
psychotherapies in psychiatry
psychotherapies in psychiatrypsychotherapies in psychiatry
psychotherapies in psychiatrymadurai medical college,tamilnadu,India
 
Theory of object relation
Theory of object relationTheory of object relation
Theory of object relationhariom gangwar
 
Biological model
Biological modelBiological model
Biological modelSanika Sathe
 
Clinical Psychology Case Formulation and Treatment Planning: A Primer
Clinical Psychology Case Formulation and Treatment Planning: A PrimerClinical Psychology Case Formulation and Treatment Planning: A Primer
Clinical Psychology Case Formulation and Treatment Planning: A PrimerJames Tobin, Ph.D.
 
11 epidemiology
11 epidemiology11 epidemiology
11 epidemiologyMPH_training_committee
 
psychodynamic psychotherapy
psychodynamic psychotherapypsychodynamic psychotherapy
psychodynamic psychotherapyDr. Sriram Raghavendran
 
Introduction of Neuropsychology (History and branches)
Introduction of Neuropsychology (History and branches)Introduction of Neuropsychology (History and branches)
Introduction of Neuropsychology (History and branches)Home
 
Neuropsychological Assessment
Neuropsychological AssessmentNeuropsychological Assessment
Neuropsychological AssessmentDr. Sunil Suthar
 
Ethical and Legal Constraints in Psychotherapy
Ethical and Legal Constraints in PsychotherapyEthical and Legal Constraints in Psychotherapy
Ethical and Legal Constraints in PsychotherapyPrachi Sanghvi
 
AP Biopsychology PowerPoint
AP Biopsychology PowerPointAP Biopsychology PowerPoint
AP Biopsychology PowerPointMrTimBradley
 
Psycho neuro immunology
Psycho neuro immunologyPsycho neuro immunology
Psycho neuro immunologyBahauddin Zakariya University lahore
 
Psychopharmacology prof satya
Psychopharmacology prof satyaPsychopharmacology prof satya
Psychopharmacology prof satyasathyanarayanan varadarajan
 
Biological perspective
Biological perspectiveBiological perspective
Biological perspectiveRustamAli44
 
GENETICS IN ORTHODONTICS WORD.docx
GENETICS IN ORTHODONTICS WORD.docxGENETICS IN ORTHODONTICS WORD.docx
GENETICS IN ORTHODONTICS WORD.docxsidharth779721
 
Genetics and genomic
Genetics and genomicGenetics and genomic
Genetics and genomicTuğçe İlhan
 

More Related Content

What's hot

Neurobiology of memory
Neurobiology of memoryNeurobiology of memory
Neurobiology of memorySWATI SINGH
 
Therapeutic goals assumptions and steps of psychoanalytic therapy
Therapeutic goals assumptions and steps of psychoanalytic therapyTherapeutic goals assumptions and steps of psychoanalytic therapy
Therapeutic goals assumptions and steps of psychoanalytic therapyGeetesh Kumar Singh
 
Genetics In Psychiatry
Genetics In PsychiatryGenetics In Psychiatry
Genetics In PsychiatryFrank Meissner
 
Psychoneuroimmunology
PsychoneuroimmunologyPsychoneuroimmunology
PsychoneuroimmunologySagnikaPanda
 
Trauma and stress related disorders
Trauma and stress related disorders Trauma and stress related disorders
Trauma and stress related disorders Muhammad Musawar Ali
 
Theory of object relation
Theory of object relationTheory of object relation
Theory of object relationhariom gangwar
 
Clinical Psychology Case Formulation and Treatment Planning: A Primer
Clinical Psychology Case Formulation and Treatment Planning: A PrimerClinical Psychology Case Formulation and Treatment Planning: A Primer
Clinical Psychology Case Formulation and Treatment Planning: A PrimerJames Tobin, Ph.D.
 
Introduction of Neuropsychology (History and branches)
Introduction of Neuropsychology (History and branches)Introduction of Neuropsychology (History and branches)
Introduction of Neuropsychology (History and branches)Home
 
Neuropsychological Assessment
Neuropsychological AssessmentNeuropsychological Assessment
Neuropsychological AssessmentDr. Sunil Suthar
 
Ethical and Legal Constraints in Psychotherapy
Ethical and Legal Constraints in PsychotherapyEthical and Legal Constraints in Psychotherapy
Ethical and Legal Constraints in PsychotherapyPrachi Sanghvi
 
AP Biopsychology PowerPoint
AP Biopsychology PowerPointAP Biopsychology PowerPoint
AP Biopsychology PowerPointMrTimBradley
 
Biological perspective
Biological perspectiveBiological perspective
Biological perspectiveRustamAli44
 

What's hot (20)

Neurobiology of memory
Neurobiology of memoryNeurobiology of memory
Neurobiology of memory
 
Introduction to biopsychology 2.0
Introduction to biopsychology 2.0Introduction to biopsychology 2.0
Introduction to biopsychology 2.0
 
Therapeutic goals assumptions and steps of psychoanalytic therapy
Therapeutic goals assumptions and steps of psychoanalytic therapyTherapeutic goals assumptions and steps of psychoanalytic therapy
Therapeutic goals assumptions and steps of psychoanalytic therapy
 
Genetics In Psychiatry
Genetics In PsychiatryGenetics In Psychiatry
Genetics In Psychiatry
 
Biopsychosocial
BiopsychosocialBiopsychosocial
Biopsychosocial
 
Psychoneuroimmunology
PsychoneuroimmunologyPsychoneuroimmunology
Psychoneuroimmunology
 
Trauma and stress related disorders
Trauma and stress related disorders Trauma and stress related disorders
Trauma and stress related disorders
 
psychotherapies in psychiatry
psychotherapies in psychiatrypsychotherapies in psychiatry
psychotherapies in psychiatry
 
Theory of object relation
Theory of object relationTheory of object relation
Theory of object relation
 
Biological model
Biological modelBiological model
Biological model
 
Clinical Psychology Case Formulation and Treatment Planning: A Primer
Clinical Psychology Case Formulation and Treatment Planning: A PrimerClinical Psychology Case Formulation and Treatment Planning: A Primer
Clinical Psychology Case Formulation and Treatment Planning: A Primer
 
11 epidemiology
11 epidemiology11 epidemiology
11 epidemiology
 
psychodynamic psychotherapy
psychodynamic psychotherapypsychodynamic psychotherapy
psychodynamic psychotherapy
 
Introduction of Neuropsychology (History and branches)
Introduction of Neuropsychology (History and branches)Introduction of Neuropsychology (History and branches)
Introduction of Neuropsychology (History and branches)
 
Neuropsychological Assessment
Neuropsychological AssessmentNeuropsychological Assessment
Neuropsychological Assessment
 
Ethical and Legal Constraints in Psychotherapy
Ethical and Legal Constraints in PsychotherapyEthical and Legal Constraints in Psychotherapy
Ethical and Legal Constraints in Psychotherapy
 
AP Biopsychology PowerPoint
AP Biopsychology PowerPointAP Biopsychology PowerPoint
AP Biopsychology PowerPoint
 
Psycho neuro immunology
Psycho neuro immunologyPsycho neuro immunology
Psycho neuro immunology
 
Psychopharmacology prof satya
Psychopharmacology prof satyaPsychopharmacology prof satya
Psychopharmacology prof satya
 
Biological perspective
Biological perspectiveBiological perspective
Biological perspective
 

Similar to Genetics in psychobiology

GENETICS IN ORTHODONTICS WORD.docx
GENETICS IN ORTHODONTICS WORD.docxGENETICS IN ORTHODONTICS WORD.docx
GENETICS IN ORTHODONTICS WORD.docxsidharth779721
 
Basic concepts of Genes, Chromosomes & DNA: Human Genome Project
Basic concepts of Genes, Chromosomes & DNA: Human Genome ProjectBasic concepts of Genes, Chromosomes & DNA: Human Genome Project
Basic concepts of Genes, Chromosomes & DNA: Human Genome ProjectAnamika Ramawat
 
Human genome project - Decoding the codes of life
Human genome project - Decoding the codes of lifeHuman genome project - Decoding the codes of life
Human genome project - Decoding the codes of lifearjunaa7
 
BTG 708 GENE THERAPY.pptx
BTG 708 GENE THERAPY.pptxBTG 708 GENE THERAPY.pptx
BTG 708 GENE THERAPY.pptxRUTH AFUNWA
 
YASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptx
YASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptxYASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptx
YASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptxYashPandya81
 
Introduction to genetics.pptx
Introduction to genetics.pptxIntroduction to genetics.pptx
Introduction to genetics.pptxsachinshitole12
 
Genetics dentistry part 1 2017
Genetics dentistry part 1 2017Genetics dentistry part 1 2017
Genetics dentistry part 1 2017Lama K Banna
 
Pertemuan 1. introduction
Pertemuan 1. introductionPertemuan 1. introduction
Pertemuan 1. introductionSuryati Purba
 
Comparative genomics and proteomics
Comparative genomics and proteomicsComparative genomics and proteomics
Comparative genomics and proteomicsNikhil Aggarwal
 
Role of genetics in periodontal diseases
Role of genetics in periodontal diseasesRole of genetics in periodontal diseases
Role of genetics in periodontal diseasesAnushri Gupta
 

Similar to Genetics in psychobiology (20)

GENETICS IN ORTHODONTICS WORD.docx
GENETICS IN ORTHODONTICS WORD.docxGENETICS IN ORTHODONTICS WORD.docx
GENETICS IN ORTHODONTICS WORD.docx
 
Genetics and genomic
Genetics and genomicGenetics and genomic
Genetics and genomic
 
Family history
Family history Family history
Family history
 
Basic concepts of Genes, Chromosomes & DNA: Human Genome Project
Basic concepts of Genes, Chromosomes & DNA: Human Genome ProjectBasic concepts of Genes, Chromosomes & DNA: Human Genome Project
Basic concepts of Genes, Chromosomes & DNA: Human Genome Project
 
Epigenetics
EpigeneticsEpigenetics
Epigenetics
 
Human genome project - Decoding the codes of life
Human genome project - Decoding the codes of lifeHuman genome project - Decoding the codes of life
Human genome project - Decoding the codes of life
 
BTG 708 GENE THERAPY.pptx
BTG 708 GENE THERAPY.pptxBTG 708 GENE THERAPY.pptx
BTG 708 GENE THERAPY.pptx
 
YASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptx
YASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptxYASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptx
YASH PANDYA BIOLOGY INVESTIGATORY PROJECT.pptx
 
Epigenetics
EpigeneticsEpigenetics
Epigenetics
 
Human Genome Project
Human Genome ProjectHuman Genome Project
Human Genome Project
 
Pharmacogenomics
PharmacogenomicsPharmacogenomics
Pharmacogenomics
 
Introduction to genetics.pptx
Introduction to genetics.pptxIntroduction to genetics.pptx
Introduction to genetics.pptx
 
Genetics dentistry part 1 2017
Genetics dentistry part 1 2017Genetics dentistry part 1 2017
Genetics dentistry part 1 2017
 
Genomics
GenomicsGenomics
Genomics
 
Pertemuan 1. introduction
Pertemuan 1. introductionPertemuan 1. introduction
Pertemuan 1. introduction
 
Comparative genomics and proteomics
Comparative genomics and proteomicsComparative genomics and proteomics
Comparative genomics and proteomics
 
Cap 1-genética
Cap 1-genéticaCap 1-genética
Cap 1-genética
 
Genomics
GenomicsGenomics
Genomics
 
The Human Genome Project
The Human Genome Project The Human Genome Project
The Human Genome Project
 
Role of genetics in periodontal diseases
Role of genetics in periodontal diseasesRole of genetics in periodontal diseases
Role of genetics in periodontal diseases
 

More from jasleenbrar03

RIGHTS OF MENTALLY ILL PATIENTS.pptx
RIGHTS OF MENTALLY ILL PATIENTS.pptxRIGHTS OF MENTALLY ILL PATIENTS.pptx
RIGHTS OF MENTALLY ILL PATIENTS.pptxjasleenbrar03
 
Principles of mental health nursing
Principles of mental health nursingPrinciples of mental health nursing
Principles of mental health nursingjasleenbrar03
 
Toxic shock syndrome
Toxic shock syndromeToxic shock syndrome
Toxic shock syndromejasleenbrar03
 
Experimental research design
Experimental research designExperimental research design
Experimental research designjasleenbrar03
 
Grief and grief reactions
Grief and grief reactionsGrief and grief reactions
Grief and grief reactionsjasleenbrar03
 
Psychiatric terminologies
Psychiatric terminologiesPsychiatric terminologies
Psychiatric terminologiesjasleenbrar03
 
Leadership in nursing
Leadership in nursingLeadership in nursing
Leadership in nursingjasleenbrar03
 
Endo tracheal Suctioning
Endo tracheal SuctioningEndo tracheal Suctioning
Endo tracheal Suctioningjasleenbrar03
 
Nursing records & reports
Nursing records & reportsNursing records & reports
Nursing records & reportsjasleenbrar03
 
Critical thinking in nursing
Critical thinking in nursingCritical thinking in nursing
Critical thinking in nursingjasleenbrar03
 
Histrionic personality disorder
Histrionic personality disorderHistrionic personality disorder
Histrionic personality disorderjasleenbrar03
 
Rhematoid arthiritis
Rhematoid arthiritisRhematoid arthiritis
Rhematoid arthiritisjasleenbrar03
 
Models of curriculum dvelopment
Models of curriculum dvelopmentModels of curriculum dvelopment
Models of curriculum dvelopmentjasleenbrar03
 
Nurse patient relationship and johari window
Nurse patient relationship and johari windowNurse patient relationship and johari window
Nurse patient relationship and johari windowjasleenbrar03
 
Standards, challenges and scope of psychiatric nursing
Standards, challenges and scope of psychiatric nursingStandards, challenges and scope of psychiatric nursing
Standards, challenges and scope of psychiatric nursingjasleenbrar03
 

More from jasleenbrar03 (20)

RIGHTS OF MENTALLY ILL PATIENTS.pptx
RIGHTS OF MENTALLY ILL PATIENTS.pptxRIGHTS OF MENTALLY ILL PATIENTS.pptx
RIGHTS OF MENTALLY ILL PATIENTS.pptx
 
Principles of mental health nursing
Principles of mental health nursingPrinciples of mental health nursing
Principles of mental health nursing
 
Circadian rhythms
Circadian rhythmsCircadian rhythms
Circadian rhythms
 
Toxic shock syndrome
Toxic shock syndromeToxic shock syndrome
Toxic shock syndrome
 
Experimental research design
Experimental research designExperimental research design
Experimental research design
 
Alcoholism
AlcoholismAlcoholism
Alcoholism
 
Grief and grief reactions
Grief and grief reactionsGrief and grief reactions
Grief and grief reactions
 
Psychiatric terminologies
Psychiatric terminologiesPsychiatric terminologies
Psychiatric terminologies
 
Leadership in nursing
Leadership in nursingLeadership in nursing
Leadership in nursing
 
Endo tracheal Suctioning
Endo tracheal SuctioningEndo tracheal Suctioning
Endo tracheal Suctioning
 
Nursing records & reports
Nursing records & reportsNursing records & reports
Nursing records & reports
 
Critical thinking in nursing
Critical thinking in nursingCritical thinking in nursing
Critical thinking in nursing
 
Histrionic personality disorder
Histrionic personality disorderHistrionic personality disorder
Histrionic personality disorder
 
Rhematoid arthiritis
Rhematoid arthiritisRhematoid arthiritis
Rhematoid arthiritis
 
CAI & CAL
CAI & CALCAI & CAL
CAI & CAL
 
Models of curriculum dvelopment
Models of curriculum dvelopmentModels of curriculum dvelopment
Models of curriculum dvelopment
 
Nurse patient relationship and johari window
Nurse patient relationship and johari windowNurse patient relationship and johari window
Nurse patient relationship and johari window
 
Freud theory
Freud theoryFreud theory
Freud theory
 
Standards, challenges and scope of psychiatric nursing
Standards, challenges and scope of psychiatric nursingStandards, challenges and scope of psychiatric nursing
Standards, challenges and scope of psychiatric nursing
 
Infection control
Infection controlInfection control
Infection control
 

Recently uploaded

Grade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdf
Grade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdfGrade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdf
Grade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdfJemuel Francisco
 
Proudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptxProudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptxthorishapillay1
 
Choosing the Right CBSE School A Comprehensive Guide for Parents
Choosing the Right CBSE School A Comprehensive Guide for ParentsChoosing the Right CBSE School A Comprehensive Guide for Parents
Choosing the Right CBSE School A Comprehensive Guide for Parentsnavabharathschool99
 
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)lakshayb543
 
Like-prefer-love -hate+verb+ing & silent letters & citizenship text.pdf
Like-prefer-love -hate+verb+ing & silent letters & citizenship text.pdfLike-prefer-love -hate+verb+ing & silent letters & citizenship text.pdf
Like-prefer-love -hate+verb+ing & silent letters & citizenship text.pdfMr Bounab Samir
 
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️9953056974 Low Rate Call Girls In Saket, Delhi NCR
 
Influencing policy (training slides from Fast Track Impact)
Influencing policy (training slides from Fast Track Impact)Influencing policy (training slides from Fast Track Impact)
Influencing policy (training slides from Fast Track Impact)Mark Reed
 
Field Attribute Index Feature in Odoo 17
Field Attribute Index Feature in Odoo 17Field Attribute Index Feature in Odoo 17
Field Attribute Index Feature in Odoo 17Celine George
 
Global Lehigh Strategic Initiatives (without descriptions)
Global Lehigh Strategic Initiatives (without descriptions)Global Lehigh Strategic Initiatives (without descriptions)
Global Lehigh Strategic Initiatives (without descriptions)cama23
 
Karra SKD Conference Presentation Revised.pptx
Karra SKD Conference Presentation Revised.pptxKarra SKD Conference Presentation Revised.pptx
Karra SKD Conference Presentation Revised.pptxAshokKarra1
 
4.18.24 Movement Legacies, Reflection, and Review.pptx
4.18.24 Movement Legacies, Reflection, and Review.pptx4.18.24 Movement Legacies, Reflection, and Review.pptx
4.18.24 Movement Legacies, Reflection, and Review.pptxmary850239
 
GRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTS
GRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTSGRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTS
GRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTSJoshuaGantuangco2
 
AMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdf
AMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdfAMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdf
AMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdfphamnguyenenglishnb
 
USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...
USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...
USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...Postal Advocate Inc.
 
ECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptx
ECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptxECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptx
ECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptxiammrhaywood
 
How to Add Barcode on PDF Report in Odoo 17
How to Add Barcode on PDF Report in Odoo 17How to Add Barcode on PDF Report in Odoo 17
How to Add Barcode on PDF Report in Odoo 17Celine George
 
THEORIES OF ORGANIZATION-PUBLIC ADMINISTRATION
THEORIES OF ORGANIZATION-PUBLIC ADMINISTRATIONTHEORIES OF ORGANIZATION-PUBLIC ADMINISTRATION
THEORIES OF ORGANIZATION-PUBLIC ADMINISTRATIONHumphrey A Beña
 

Recently uploaded (20)

YOUVE GOT EMAIL_FINALS_EL_DORADO_2024.pptx
YOUVE GOT EMAIL_FINALS_EL_DORADO_2024.pptxYOUVE GOT EMAIL_FINALS_EL_DORADO_2024.pptx
YOUVE GOT EMAIL_FINALS_EL_DORADO_2024.pptx
 
Grade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdf
Grade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdfGrade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdf
Grade 9 Quarter 4 Dll Grade 9 Quarter 4 DLL.pdf
 
Proudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptxProudly South Africa powerpoint Thorisha.pptx
Proudly South Africa powerpoint Thorisha.pptx
 
Choosing the Right CBSE School A Comprehensive Guide for Parents
Choosing the Right CBSE School A Comprehensive Guide for ParentsChoosing the Right CBSE School A Comprehensive Guide for Parents
Choosing the Right CBSE School A Comprehensive Guide for Parents
 
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
Visit to a blind student's school🧑‍🦯🧑‍🦯(community medicine)
 
Like-prefer-love -hate+verb+ing & silent letters & citizenship text.pdf
Like-prefer-love -hate+verb+ing & silent letters & citizenship text.pdfLike-prefer-love -hate+verb+ing & silent letters & citizenship text.pdf
Like-prefer-love -hate+verb+ing & silent letters & citizenship text.pdf
 
LEFT_ON_C'N_ PRELIMS_EL_DORADO_2024.pptx
LEFT_ON_C'N_ PRELIMS_EL_DORADO_2024.pptxLEFT_ON_C'N_ PRELIMS_EL_DORADO_2024.pptx
LEFT_ON_C'N_ PRELIMS_EL_DORADO_2024.pptx
 
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
call girls in Kamla Market (DELHI) 🔝 >༒9953330565🔝 genuine Escort Service 🔝✔️✔️
 
Influencing policy (training slides from Fast Track Impact)
Influencing policy (training slides from Fast Track Impact)Influencing policy (training slides from Fast Track Impact)
Influencing policy (training slides from Fast Track Impact)
 
Field Attribute Index Feature in Odoo 17
Field Attribute Index Feature in Odoo 17Field Attribute Index Feature in Odoo 17
Field Attribute Index Feature in Odoo 17
 
Global Lehigh Strategic Initiatives (without descriptions)
Global Lehigh Strategic Initiatives (without descriptions)Global Lehigh Strategic Initiatives (without descriptions)
Global Lehigh Strategic Initiatives (without descriptions)
 
Karra SKD Conference Presentation Revised.pptx
Karra SKD Conference Presentation Revised.pptxKarra SKD Conference Presentation Revised.pptx
Karra SKD Conference Presentation Revised.pptx
 
4.18.24 Movement Legacies, Reflection, and Review.pptx
4.18.24 Movement Legacies, Reflection, and Review.pptx4.18.24 Movement Legacies, Reflection, and Review.pptx
4.18.24 Movement Legacies, Reflection, and Review.pptx
 
GRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTS
GRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTSGRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTS
GRADE 4 - SUMMATIVE TEST QUARTER 4 ALL SUBJECTS
 
AMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdf
AMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdfAMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdf
AMERICAN LANGUAGE HUB_Level2_Student'sBook_Answerkey.pdf
 
USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...
USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...
USPS® Forced Meter Migration - How to Know if Your Postage Meter Will Soon be...
 
ECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptx
ECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptxECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptx
ECONOMIC CONTEXT - PAPER 1 Q3: NEWSPAPERS.pptx
 
Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝
Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝
Model Call Girl in Tilak Nagar Delhi reach out to us at 🔝9953056974🔝
 
How to Add Barcode on PDF Report in Odoo 17
How to Add Barcode on PDF Report in Odoo 17How to Add Barcode on PDF Report in Odoo 17
How to Add Barcode on PDF Report in Odoo 17
 
THEORIES OF ORGANIZATION-PUBLIC ADMINISTRATION
THEORIES OF ORGANIZATION-PUBLIC ADMINISTRATIONTHEORIES OF ORGANIZATION-PUBLIC ADMINISTRATION
THEORIES OF ORGANIZATION-PUBLIC ADMINISTRATION
 

Genetics in psychobiology

  • 2. Introduction • Psychiatric genetics, a subfield of behavioral neurogenetics, studies the role of genetics in psychological conditions such as alcoholism, schizophrenia, bipolar disorder, and autism • Psychiatric genetics is a somewhat new name for an old question, "Are behavioral and psychological conditions and deviations inherited". The goal of psychiatric genetics is to better understand the etiology of psychiatric disorders, to use that knowledge to improve treatment methods, and possibly also to develop personalized treatments based on genetic profiles. • In other words, the goal is to transform parts of psychiatry into a neuroscience-based discipline.
  • 3. History • Research on psychiatric genetics began in the late nineteenth century with Francis Galton (a founder of psychiatric genetics) who was motivated by the work of Charles Darwin and his concept of desegregation. • These methods of study later improved due to the development of more advanced clinical, epidemiological, and biometrical research tools. • Better research tools were the precursor to the ability to perform valid family, twin, and adoption studies. Researchers learned that genes influence how these disorders manifest and that they tend to aggregate in families.
  • 4. Genome • The genome is the entirety of an organism's hereditary information. It is encoded either in DNA or, for many types of viruses, in RNA. The genome includes both the genes and the non-coding sequences of the DNA/RNA • An analogy to the human genome stored on DNA is that of instructions stored in a book: • The book (genome) would contain 23 chapters (chromosomes); • Each chapter contains 48 to 250 million letters (A,C,G,T) without spaces; • Hence, the book contains over 3.2 billion letters total; • The book fits into a cell nucleus the size of a pinpoint; • At least one copy of the book (all 23 chapters) is contained in most cells of our body. The only exception in humans is found in mature red blood cells which become enucleated during development and therefore lack a genome.
  • 5. DNA • Deoxyribonucleic acid (DNA) is a molecule that encodes the genetic instructions used in the development and functioning of all known living organisms and many viruses. • DNA is a nucleic acid; alongside proteins and carbohydrates, nucleic acids compose the three major macromolecules essential for all known forms of life. Most DNA molecules are double-stranded helices, consisting of two long biopolymers made of simpler units called nucleotides—each nucleotide is composed of a nucleobase (guanine, adenine, thymine, and cytosine), recorded using the letters G, A, T, and C, as well as a backbone made of alternating sugars (deoxyribose) and phosphate groups (related to phosphoric acid), with the nucleobases (G, A, T, C) attached to the sugars. • DNA is well-suited for biological information storage. •
  • 6.
  • 7. RNA • Ribonucleic acid (RNA) perform multiple vital roles in the coding, decoding, regulation, and expression of genes. • Like DNA, RNA is assembled as a chain of nucleotides, but is usually single-stranded. Cellular organisms use messenger RNA (mRNA) to convey genetic information (often notated using the letters G, A, U, and C for the nucleotides guanine, adenine, uracil and cytosine) that directs synthesis of specific proteins, while many viruses encode their genetic information using an RNA genome. • Some RNA molecules play an active role within cells by catalyzing biological reactions, controlling gene expression, or sensing and communicating responses to cellular signals. •
  • 8.
  • 9. Gene • A gene is the molecular unit of heredity of a living organism. • Living beings depend on genes, as they specify all proteins and functional RNA chains. • Genes hold the information to build and maintain an organism's cells and pass genetic traits to offspring. • All organisms have many genes corresponding to various biological traits, some of which are immediately visible, such as eye color or number of limbs, and some of which are not, such as blood type, increased risk for specific diseases, or the thousands of basic biochemical processes that comprise life.
  • 10. RNA genes and genomes in the world- • When proteins are manufactured, the gene is first copied into RNA as an intermediate product. In other cases, the RNA molecules are the actual functional products. • For example, RNAs known as ribozymes are capable of enzymatic function, and microRNA has a regulatory role. The DNA sequences from which such RNAs are transcribed are known as RNA genes. • Some viruses store their entire genomes in the form of RNA, and contain no DNA at all. Because they use RNA to store genes, their cellular hosts may synthesize their proteins as soon as they are infected and without the delay in waiting for transcription. • On the other hand, RNA retroviruses, such as HIV, require the reverse transcription of their genome from RNA into DNA before their proteins can be synthesized. • In 2006, French researchers came across a puzzling example of RNA-mediated inheritance in mice. Mice with a loss-of-function mutation in the gene Kit have white tails. Offspring of these mutants can have white tails despite having only normal Kit genes. The research team traced this effect back to mutated Kit RNA.
  • 11. Chromosomes • The total complement of genes in an organism or cell is known as its genome, which may be stored on one or more chromosomes; the region of the chromosome at which a particular gene is located is called its locus. • A chromosome consists of a single, very long DNA helix on which thousands of genes are encoded.
  • 12. DNA and Human Genome Project • The history of biology was altered forever by the launching of the Human Genome Project, a research program that has characterized the complete set of genetic instructions of the human. Science is showing that the complexity of human emotions and behaviour is governed by a variety of genes and their interplay with each other, environmental factors, personality and life experiences (Cole et al, 2010). • Determined of the DNA sequence for the human gene was completed in April 2003, marking the end of the Human Genome Project, 2 years ahead of schedule. One of the most daunting challenges remaining is that of understanding how all the parts of cells- genes, proteins and many other molecules work together to create complex living organisms in heath and illness (NHGRI, 2011) • Insights gained from the human DNA sequence: • The human genome contains 3 billion nucleotide bases (A, C, T, G), combinations of which comprise all genetic codes. The average gene has 3000 bases. Humans have about 30,000 genes (one third as many as previously thought), the same number as found in a laboratory mouse.
  • 13. • The functions of more than 50% of the discovered genes are still unknown, • The human genome sequence is almost (99%) exactly the same in all people. • Slight variations in DNA sequence can have a major impact on the manifestation of a disease process and on responses to environmental factors, such as presence of microbes, toxins and drugs. • Single-nucleotide polymorphisms (SNPs) are sites in the human genome where individuals differ in their DNA sequence, often only by a single base. Sets of SNPs on the same chromosome are inherited in blocks and may help determine the etiology of disease as well as the efficacy of new treatments.
  • 14. • The genome, an organism’s complete set of DNA instructions, is organized into chromosomes, which contain many genes, the basic physical and functional units of heredity. Genes are specific sequence of bases that encode instructions on how to make proteins, which are large, complex molecules made up of amino acids. It is the proteins that perform most life functions and constitute the majority of cellular structures. • Genetic mapping, also called linkage mapping. It can offer firm evidence that a disease transmitted from parent to child is linked to one or more genes, and it provides clues as to which chromosomes contain the gene and where the gene is on the chromosome. • Genetic testing is a commercial medical application of the new genetic discoveries, used to diagnose disease, confirm a diagnosis, provide prognostic information about the course of a disease, confirm the existence of a disease in symptomatic individuals, and detect predispositions to disease in healthy individuals and their offspring.
  • 15. Human genetic variation • Human genetic variation is the genetic differences both within and among populations. • No two humans are genetically identical. Even monozygotic twins, who develop from one zygote, have infrequent genetic differences due to mutations occurring during development and gene copy number variation. • Differences between individuals, even closely related individuals, are the key to techniques such as genetic fingerprinting. Alleles occur at different frequencies in different human populations, with populations that are more geographically and ancestrally remote tending to differ more. • Causes of differences between individuals include the exchange of genes during meiosis and various mutational events.
  • 16. • There are at least two reasons why genetic variation exists between populations. • Natural selection may confer an adaptive advantage to individuals in a specific environment if an allele provides a competitive advantage. Alleles under selection are likely to occur only in those geographic regions where they confer an advantage. • The second main cause of genetic variation is due to the high degree of neutrality of most mutations. Most mutations do not appear to have any selective effect one way or the other on the organism. The main cause is genetic drift, this is the effect of random changes in the gene pool. In humans, founder effect and past small population size (increasing the likelihood of genetic drift) may have had an important influence in neutral differences between populations.
  • 17. • Measures of variation- Genetic variation among humans occurs on many scales, from gross alterations in the human karyotype to single nucleotide changes. • Nucleotide diversity is the average proportion of nucleotides that differ between two individuals. The human nucleotide diversity is estimated to be 0.1% to 0.4% of base pairs. A difference of 1 in 1,000 amounts to approximately 3 million nucleotide differences, because the human genome has about 3 billion nucleotides.
  • 18. • Single nucleotide polymorphisms- A single nucleotide polymorphism (SNP) is difference in a single nucleotide between members of one species that occurs in at least 1% of the population. It is estimated that there are 10 to 30 million SNPs in humans. • SNPs are the most common type of sequence variation, estimated to comprise 90% of all sequence variations. Other sequence variations are single base exchanges, deletions and insertions. • A functional, or non-synonymous, SNP is one that affects some factor such as gene splicing or messenger RNA, and so causes a phenotypic difference between members of the species. About 3% to 5% of human SNPs are functional. Neutral, or synonymous SNPs are still useful as genetic markers in genome-wide association studies, because of their sheer number and the stable inheritance over generations. • A coding SNP is one that occurs inside a gene. They occur due to segmental duplication in the genome. These SNPs result in loss of protein, yet all these SNP alleles are common and are not purified in negative selection.
  • 19. Genes, brain, and behaviour: • Based on family, twin and adoption studies, it is apparent that both genetic and environmental factors play important roles in the normal development of temperament, personality and attitudes as well as in the pathogenesis of major mental disorders. • Before the advent of molecular genetics, human behavioural genetics, including investigations of mental illness, were limited to quantitative analyses of twin studies, adoption studies and multigenerational family designs that attempted to discriminate genetic from nongenetic influences on behavioural phenotypes and to determine the modes of inheritance.
  • 20. • The fundamental challenges facing psychiatric genetics are the difficulty of defining phenotypes and the apparently large number of genetic and nongenetic risk factors involved in producing mental illness phenotypes. Gene-environment interaction may play a role not only in the initial expression of mental disorders but also in their course.
  • 21. Heritability and Genetics • The term genotype refers to the total set of genes present in an individual at the time of conception, and coded in the DNA. The physical manifestations of a particular genotype are designated by characteristics that specify a specific phenotype. • Examples of phenotype include eye colour, height, blood type, and language and hair type. • As evident by the examples presented, phenotypes are not only genetic but may also be acquired i.e. influenced by the environment, or a combination of both. I is likely that many psychiatric disorders are the result of a combination of genetics and environmental influences.
  • 22. • Investigators who study the etiological implications for psychiatric illness may explore several risk factors. Studies to determine if an illness is familial compare the percentage of family members with the illness to those in the general population or within a control group of unrelated individuals. These studies estimate the prevalence of psychopathology among relatives, and make predictions about the predictions about the predisposition to an illness based on familial risk factors. •
  • 23. • Schizophrenia, bipolar disorder, major depression, anorexia nervosa, panic disorder, somatisation disorder, antisocial personality disorder and alcoholism are examples of psychiatric illness in which familial tendencies have been indicated. • Most psychiatric disorders are highly heritable; the estimated heritability for bipolar disorder, schizophrenia, and autism (80% or higher) is much higher than that of diseases like breast cancer and Parkinson disease. Having a close family member affected by a mental illness is the largest known risk factor, to date. However, linkage analysis and genome-wide association studies have found few reproducible risk factors.
  • 24. • Studies that are purely genetic in nature search for a specific gene that is responsible for an individual having a particular illness. A number of disorders exist in which the mutation of a specific gene or change in the number or structure of a chromosome has been associated with the etiology. • Examples include Huntington’s disease, cystic fibrosis, phenylketonuria and Down syndrome. • Heterogeneity is an important factor to consider when dealing with genetics. Two types of heterogeneity have been identified in association with psychiatric genetics: causal and clinical. Causal heterogeneity refers to a situation in which two or more causes can independently induce the same clinical syndrome. Clinical heterogeneity refers to when a single cause can lead to more than one clinical syndrome.
  • 25. • In addition to familial and purely genetic investigations, other types of studies have been conducted to estimate the existence and degree of genetic and environmental contributions to the etiology of certain psychiatric disorders. Twin studies and adoption studies have been successfully employed for this purpose. • Twin studies examine the frequency of a disorder in monozygotic (genetically identical) and dizygotic (fraternal; not genetically identical) twins. Twins are called concordant when both members suffer from the same disorder in question. Concordance in monozygotic twins is considered stronger evidence of genetic involvement than it is in dizygotic twins. Disorders in which twin studies have suggested a possible genetic link include alcoholism, schizophrenia, major depression, bipolar disorder, anorexia nervosa, panic disorder, and obsessive- compulsive disorder (Baker, 2004; Gill, 2004)
  • 26. • Adoption studies allow comparisons to be made of the influences of genetics versus environment on the development of a psychiatric disorder, Knowles (2003) describes the following four types of adoption studies that have been conducted: • The study of adopted children whose biological parent(s) had a psychiatric disorder but whose adoptive parent(s) did not. • The study of adopted children whose adoptive parent(s) had a psychiatric disorder but whose biological parent(s) did not. • The study of adoptive and biological relatives of adopted children who developed a psychiatric disorder. • The study of monozygotic twins reared apart by different adoptive parents. • • Disorders in which adoption studies have been suggested a possible genetic link include alcoholism, schizophrenia, major depression, bipolar disorder, attention-deficit/ hyperactivity disorder and antisocial personality disorder (Knowles, 2003).
  • 27. • The search for the genes that cause mental illness has been challenging and has stimulated scientific, political and clinical debate (Kendler, 2005). • An example of a genetically heterogeneous (caused by more than one gene) disorder is the rare form of Alzheimer disease that affects people before age 65 years. Early onset AD affects only about 10% of cases and seems to be linked to mutations in any of three specific genes responsible for amyloid-beta, causing excess deposits of this substance in the brains of the persons with AD. • Current research on the genetics of mental health and illness is confirming the genetic transmission of mental illness but also confronting many challenges. One challenge is the chronic nature of many mental illnesses and the gradual increase of symptoms and behavioural problems over time, also challenging is the length of time required for therapeutic effects of many treatments (Tsankova et al, 2007).
  • 28. • The proteins surrounding DNA affect which portions of the DNA strand are accessible for transcription. This manipulation of DNA can affect gene activity but does not alter the genetic code. Another complication is that psychiatric illnesses are not caused by simple genetic mechanisms but rather by small, cumulative effects from multiple genes (Kendler, 2006; Baum et al,2007)
  • 29. • The proposed uses of genetics in psychiatry include the following: • Developing new drugs that will target molecular regulators of gene expression that control neuroproteins and neuroenzymes in brain regions shown to be abnormal in a particular psychiatric illness. • Conducting gene therapy- the introduction of genes into existing cells to prevent or cure disease. • Implementing studies that use ‘candidate genes’ (cloned human genes that are functionally related to the disease of interest) in research procedures in the laboratory.
  • 30. Implications for Nursing • It is important for nurses to understand the interaction between biological and behavioural factors in the development and management of mental illness. • The nurse should have clear understanding of the genetic influences i.e. the hereditary factors that predispose individuals to certain psychiatric disorders. • The nurse should be in the position to answer questions from patients and families about the genetics of mental illness and to educate them about the accuracy and limitations of current testing procedures (Braff and Freedman, 2008; Gottesmann et al, 2011; Lea et al, 2011). • The nurse can objectively share the current evidence while reminding them that this information is often preliminary, yet growing.