Mendelian Genetics
Gregor Mendel is recognized as the
father of genetics.
Mendel, who was not scientifically
trained, developed his theories in the
1850’s and 1860’s, without any
knowledge of cell biology or the science
of inheritance.
Photo courtesy of Wikipedia.
In later years, genes, chromosomes, and DNA were
discovered and people began to understand how and why
Robert Bakewell
1700s
English Breeder of: Shire horses
Gregor
Mendel
basic genetic principles used pea plants
not well understood during his life
Mendel, G. 1866. Experiments on Plant Hybridization.
1
Introduction: History and Development of Genetics .2.
Mendelism :Monohibryd and dihibryd Inheritance,3.
Exception of Mendelsm : intermedier, linkage ,, sex limited, sex inlfluenced4.
Genetic Material I: Chromosome, DNA and Gen , Abberation5.
Multiple Allel6.
Class Discusion: Proup of 5: Paper and PPT, Presentation. Topic 1-5.7.
Class Discusion: Proup of 5: Paper and PPT, Presentation. Topic 1-5.8.
MIDTEST
9.
Probability in Genetics Inheritance10.
Sex Determination , linked and crossing over11.
Introduction to Genetics Population12.
Factors influencen in Population13.
Introduction to Genetics Engineering14.
Class Discusion: Proup of 5: Paper and PPT, Presentation. Topic 1-5.15.
Class Discusion: Proup of 5: Paper and PPT, Presentation. Topic 1-5.Mendel’s experiments dealt with the
relationship between an organism’s genotype
and its phenotype
.Genotype – the genetic composition of an organism.
Phenotype – the observable or measurable characteristics (called traits) of that organism.
The relationship between phenotype and genotype is expressed as the following equation:
P = G + E
To understand Mendel’s principles and
the relationships between phenotype and
genotype,
it is necessary to understand what makes
up the genetic material of animals and how this is
transferred from one generation to the next.
1. Nucleolus 5. Rough Endoplasmic Reticulum 9. Mitochondria 2. Nucleus 6. Golgi Aparatus 10. Vacuole 3. Ribosome 7. Cytoskeleton 11. Cytoplasm 4. Vesicle 8. Smooth Endoplasmic Reticulum 12. Lysosome
Genetics Vocabulary
•
Homozygous
- when both alleles of a pair are the
same for a gene
• Homozygouse Dominant- PP
• Homozygous Recessive- pp
•
Heterozygous
- when the 2 alleles in the pair are
different for a gene
Fertilization
• Takes place when a sperm cell from a male reaches the egg cell of a female
• The two haploid cells (the sperm and the egg) unite and form one complete cell or zygote
• Zygote is diploid, it has a full set of chromosome pairs
Chromosomes
• Occur in pairs in the nucleus of all body cells except the sperm and ovum
• Each parent contributes to one-half of the pair
• The number of pairs of chromosomes is called the diploid number
• The diploid number varies species to species but is constant for each species of animal
Cattle 30, Swine 19, Sheep 27, Goat 30, Horse 32,
Donkey 31, Chicken 39, Rabbit 22
MENDELISME
Mendel proposed three principles to describe the transfer of genetic material from one generation to the next.
• The Principle of Dominance : in a heterozygous organism, one allele may conceal the presence of another allele.
• The Principle of Segregation: in a heterozygote, two different alleles segregate from each other during the formation
• The Principle of Independent Assortment : the alleles of different genes segregate, or assort, independently of each other.
Later studies have shown that there are some important
exceptions to Mendel’s Principle of Independent Assortment, but
Dominant and Recessive Genes
• In a heterozygous pair the dominant gene hides the effect of its allele
• The hidden allele is called a recessive gene
• When working problems involving genetic inheritance the dominant gene is usually written as a capital letter and the recessive gene is written as a lowercase letter (PP,pp,pp)
• Black is dominant to red in cattle
• White face is dominant to color face in cattle
• Black is dominant to brown in horses
• Color is dominant to albinism
• Rose comb is dominant to single comb (chicken)
• Pea comb in chickens is dominant to single comb
• Barred feather pattern in chickens is dominant to nonbarred feather—the dominant gene is also sex-linked
Teories of Inheritance (Conventional)
Ovisma
: pemilik sifat keturunan adalah ovum (♀ ),fungsi jantan menghasilkan cairan untuk perkembangan ovum
Animalkulism
a: pada cairan jantan ditemukan hewan2 kecil (Spz),sbg pembawa sifat keturunan
Preformasi
: Loewenhook: (mikroskop)ada MH kecil dalam spermatozoa atau ada manusia kecil dlm ovum
Epigenesis
: Ovum terfertilisasi oleh Spz, kmd. tumbuh sedikir demi sedikitPangenesis
(Darwin
): dalam sel kelamin ♀ ♂ terdapat tunas 2 tumbuh menjadi MH baru setelah fertilisasiPenelitian dan Peneliti Genetika
Mendel:
•From Result of Mendel
•Then, What Is Genetic Factor ?
Genetic Materials ?
W. ROUX (1883): Cromosome
T. Bovery (1902): Gen bagian dari kromosom
Faktor Penentu (Gen/Kromosom) di wariskan lewat GAMET (pada Anafase Meiosis I saat Separasi Kromosom homolog)
HIPOTESA WS SUTTON-T . BOVERY:
1. Gen dibawa oleh kromosom
2. Satu pasang kromosom asal maternal+paternal
3. Pemindahan 1 ps kromosom saat meiosis
4. Sel benih mengandung kombinasi gen jantan dan betina
5. Kromosom homolog secara genetis berbeda, sehingga sel benih scr genetis berbeda
6. Tiap kromosome terdiri lebih dari 1 gen,
gen-gen dalam kromosom pindah bersama-sama
TEORI : DOMONANSI-RESESIF
Sifat Tinggi : Dominan (gen T)
Sifat rendah/kerdil: Resesif (gen t)
Parents (P) TT Gamet:T
X tt
Gamet: t
Filial 1 (F1)
Tt
Monohibrid: 1 sifat beda
Di hibrid : 2 sifat beda
Tri hibrid : 3 sifat beda
Dominansi penuh dan semi dominant
Dominansi Penuh
Parents (P) TT Gamet:T
(Tinggi)
X tt
Gamet: t (rendah) Filial 1 (F1)
Tt
Semi Dominant: Bunga pk 4.
Merah X Putih
Merah Muda
MONOHIBRID HEWAN
Warna rambut hitam (gen dominan A, pigmentasi melanin)
AA
Macam sistim Persilangan
1.Resiprok: Kebalikan ♀/
♂ ♂ HH x ♀ hh
Hh
Hasil sama
2. Back cross:
F1 dng parent ♂/
♀
Hasil:
Fenotip/genotip ttt.
3. Test Cross: F1 dng P resesif Pembuktian F1 homosigot
Dihidrid pada hewan
Pada marmot:
•Rambut Hitam (gen H) vs putih (gen h)
•Rambut Kasar (gen K) vs rambut halus (gen h)
HH KK x hh kk
Gamet HK Gamet : hk
F1: Hh Kk x Hh Kk
Gamet
HK
Hk
hK
kk
HK
*
*
*
*
Hk
*
+
*
+
hK
*
*
=
=
kk
*
+
=
O
F2
Perkawinan Intermedier
(Dominansi tak sempurna)
Pd Mirabilis jalapa P mm X MM
putih
merahMm X Mm
(dominansi parsial)
Implementasinya pada ternak:
Jika jumlah gamet (gen)
sama dengan jumlah kromosom
Maka Kombinasinya*
Sapi 2
n= 2
30kombinasi gamet = 1.07 x 10
9Kuda 2
n= 2
32kombinasi gamet = 4.29 x 10
9Manusia 2
n= 2
23kombinasi gamet = 8.3 x 10
6So, What is the conclussion:
S u m m a r y
• Gregor Mendel is considered the father of genetics
• The amount of difference between parents and offspring is caused by genetics and the environment P= G+ E
• Fertilization occurs when the sperm cell penetrates the egg and the chromosome pairs are formed again when fertilization takes place
• Genes control an animals traits
• Some genes are dominant and some are recessive
• Animals may carry two dominant or two recessive genes for a trait. They are called homozygous pairs
• Animals may also carry a dominant and recessive gene pair. They are called heterozygous pairs