This document discusses the role of genetics in orthodontics. It begins with an introduction to genetics and molecular biology concepts like DNA, genes, and chromosomes. It then discusses several important figures in the history of genetics research. The document outlines several dentofacial disturbances that have a genetic influence, like cleft lip and palate. It also discusses Butler's field theory and methods used to study the role of genes, such as twin studies and polymerase chain reaction. The conclusion reflects on how genetics research has enhanced understanding of the dentofacial complex and hopes that future innovations can help answer remaining questions.
2. • Introduction
• Molecular basis
• Transcription and Translation
• Dentofacial disturbances of genetic influence
• Butler’s field theory
• Methods of studying role of genes
• Polymerase chain reaction (PCR)
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3. Genetics is the science concerned with the
structure and function of all genes in
different organisms.
Genetics has a significant influence on the
dentoalveolar and craniofacial
development.
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4. • Studies on genetic interest were traced
back to 6000 B.C.
• Pythagoras, Aristotle, Empedocles,
Harvey, Adams Drawin etc. were the
forerunners of genetics.
• Joseph Adams is known as the founder of
human genetics.
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5. • Gregor Mendel is known as the founder of
modern genetics.
• Mendel gave the famous “Law of segregation”.
• In 1903 Sulton and Boveri gave the
“chromosome theory of inheritance”
• In 1935 Thomas Hunt Morgan was awarded the
noble prize for the extensive studies on the
arrangement of genes along the chromosomes.
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6. • Watson and Crick in 1953
demonstrated the structure of the
DNA model .
• Finch and Klung proposed the “
Solenoid model” of the chromosome.
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7. Molecular basis of inheritance.Molecular basis of inheritance.
Cell
• Basic unit of living
body
• Made up of different
organelles i.e.
The cell wall ,
cytoplasm,
endoplasmic
reticulum, ribosome,
mitochondria,
nucleus, etc.,. www.indiandentalacademy.comwww.indiandentalacademy.com
8. Chromosome
• Thread like structure present in the
nucleus
• Chromosome contains a single molecule
of DNA spooled around histone protein
cores forming beads on a single string
called nucleosomes.
• This combination of the protein and DNA
is called as the chromatin.
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9. DNA (Deoxyribo-nucleic acid)
• It forms long chains of genetic
material organized into
chromosomes.
• Each chromosome contains a
single long molecule of DNA.
• DNA consists of nucleotides.
• Nucleotides consists of
Deoxyribose sugar, a phosphate
molecule and one protein either a
purine or a pyrimidine.
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10. • Nucleotides form a pair by a weak hydrogen
bond between the proteins. At the same time
sugar molecules on both the sides get attached
to an adjacent pair by means of phosphate
bonds
• This structure resembles a step ladder
• The step ladder undergoes primary, secondary,
tertiary and quaternary coiling to form the
chromatic loops which get tightly wound to form
the chromosome
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11. • Every strand of DNA is
bound to a second
strand whose base
complements to the
first..
• Human genome
contains
3,000,000,000. base
pairs packed into 23
chromosomes.
• The genetic code is in
the form of these bases.
1. Adenine
2. Guanine
3. Thmine
4. Cytosine
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12. Gene
• Basic unit of inheritance.
• Gene consists of a portion of the double
stranded DNA molecule with 300 to 1000
nucleotide pairs.
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13. TRANSCRIPTION:-
The process by which
the information is
transmitted from DNA
to messenger RNA at
the initial stage of
replication.
TRANSLATION:-
The process by which
the genetic
information is actually
converted into protein
synthesis.
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14. Patter of genetic
transmission
within the
dentofacial complex
REPETITVE DISCONTINUOUS VARIABLE
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15. GENE MUTATION
A change induced by certain agents in the
composition of the DNA base pair leading
to an altered protein synthesis is known as
a mutation.
Mutation can be visible, detrimental, lethal,
etc.
Mutagens can be ionizing radiation, drugs,
chemicals, certain viruses, high
temperature etc.
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16. Genetic disorders can be two typesGenetic disorders can be two types
NUMERICAL
1. Polyploidy
2. Monosomy
3. Trisomy
4. Klinefelters
syndrome
5. Turner,s syndrome
STRUCTURAL
1. Translocation
2. Deletions
3. Ring chromosomes
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17. • In 1836 Frederick G. Kussel after
extensive study reported that
malocclusion, both skeletal and dental can
be transmitted from one generation to
another .
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18. Dentofacial disturbances of geneticDentofacial disturbances of genetic
influence are:-influence are:-
• Micrognathia
• Macrognathia
• Cleft lip and palate
• Down’s syndrome
• Bimaxillary protrusion
• Open bite
• Hypodontia, anodontia, oligodontia.
• High arched palate
• Cherubism
• Gardner’s syndrome
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19. • Relapse , occlusal mannerisms, jaw
positioning, and abnormal pressure habits
which induce untoward forces that tend to
move the orthodontically treated teeth
back into malocclusion can also be
genetic in origin.
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20. BUTLER’S FIELD THEORYBUTLER’S FIELD THEORY
• Mammilian dentition divided into various
developmental fields
• The fields are molar/premolar, canine and
incisor field.
• Dental variability manifests itself strongly
in the distal than in the mesial direction.
• For e.g. lateral incisor more prone to
variation than central incisor.
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21. Methods of studying role of genesMethods of studying role of genes
Twin studiesTwin studies
These are done by analyzing the monozygotic or dizygotic twins in aThese are done by analyzing the monozygotic or dizygotic twins in a
specific manner.specific manner.
MONOZYGOTIC
TWINS:-
• Two individuals
developed from same
ovum.
• Genetic make-up
identical
DIZYGOTIC TWINS:-
• Two indivisuals
developed from two
different ovum .
• Environmental
conditions same
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22. PEDIGREE STUDIES:-
• Definite trait is studied along a family tree.
• Dominant and recessive traits can be
studied
INBREEDING:-
• Mode of transmission of dominant and
recessive traits can be analyzed by
studying certain communities where
practices like polygamy and marriages
within the family still exist.
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23. Polymerase chain reaction (PCR)Polymerase chain reaction (PCR)
• PCR is a study where the
investigator can amplify a single
copy of a DNA segment into
billions of identical copies to
study the genetic sequence.
• The PCR is carried out with the
help of sophisticated instruments
and the ingredients to carry out
PCR are target DNA, DNA
primers, free nucleotides and taq
polymerase enzymes.
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24. ConclusionConclusion
• Research into genetic influence of the
dento-facial complex has thrown light on
the new vistas of thoughts .
• We can hope that the innovative field of
genetics in the near future can help us
solve the unanswered questions .
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