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Genetica Samenvatting | Cel IV Moleculaire Biologie | UGent | 2025/26

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Deze samenvatting behandelt de volledige Genetica stof voor Cel IV: Moleculaire biologie en genetica aan de Universiteit Gent. De kern onderwerpen zijn wetten van Mendel, chromosomale afwijkingen (trisomie 21, translocaties, deleties), karyotypering, meiose en genetische varianten (SNV, indels, STR). Ideaal voor examenvoorbereiding - alle concepten zijn logisch georganiseerd met duidelijke definities van termen als homozygoot, heterozygoot en hemizyg.

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GENETICA
CONTENTS

historisch perspectief .................................................................................................................................................. 3
wetten van mendel ................................................................................................................................................... 3
dom vs rec ............................................................................................................................................................ 3
homozyg vs heterozyg vs hemizyg .......................................................................................................................... 3
codom en onvolledige dom.................................................................................................................................... 3
stambomen ............................................................................................................................................................. 3
cytogenetica ........................................................................................................................................................... 3
humaan genoom .......................................................................................................................................................... 4
gen variatie .............................................................................................................................................................. 4
celcyclus ................................................................................................................................................................. 4
chr onderzoek .......................................................................................................................................................... 5
karyotypering ........................................................................................................................................................ 5
ideorgam .............................................................................................................................................................. 5
genotype  fenotype ................................................................................................................................................ 5
numerieke chromosomale defecten: trisomie 21........................................................................................................ 5
homologe chr vs zusterchromatiden .......................................................................................................................... 6
spermatogenese ...................................................................................................................................................... 6
oogenese ................................................................................................................................................................. 6
numerieke chromosomale defecten .......................................................................................................................... 6
structurele chromosomale afwijkingen ...................................................................................................................... 7
translocaties ........................................................................................................................................................ 7
subtelomerische deleties .................................................................................................................................... 7
segmentele duplicatie ......................................................................................................................................... 8
genomische afwijkingen........................................................................................................................................... 8
cytogenetisch onderzoek ......................................................................................................................................... 8
molec genetica: chr  gen ........................................................................................................................................... 8
genetische varianten ................................................................................................................................................ 9
single nucleotie variants = cnv............................................................................................................................. 9
indels ................................................................................................................................................................ 10
microsatellite repeats – short tandem repeats (STR) ......................................................................................... 10
nomenclatuur: HGVS ............................................................................................................................................. 10
gDNA ................................................................................................................................................................. 10
cDNA ................................................................................................................................................................. 10
eiwit ................................................................................................................................................................... 10
c notatie ............................................................................................................................................................ 11
oef ..................................................................................................................................................................... 11
variant  disease ...................................................................................................................................................... 11

, causale varianten .................................................................................................................................................. 12
classificatie van varianten ....................................................................................................................................... 12
overerving.................................................................................................................................................................. 12
complicating factors - niet-mendeliaanse overerving ................................................................................................ 12
geslachtsgebonden overerving ................................................................................................................................ 13
lyonizatie of X chr inactivatie ............................................................................................................................. 13
x gebonden rec overerving .................................................................................................................................. 13
y gebonden overerving ........................................................................................................................................ 13
onvolledige penetrantie..................................................................................................................................... 14
variabele expressie ........................................................................................................................................... 14
locus heterogeniteit .......................................................................................................................................... 14
triplet repeats – dyn mutaties ............................................................................................................................ 14
imprinting .......................................................................................................................................................... 14
mt en mtDNA  mt genoom ................................................................................................................................ 14
kankergenetica .......................................................................................................................................................... 15
kANKER SUBGROEPEN ........................................................................................................................................... 16
CARCINOMAS .................................................................................................................................................... 16
leukemia ........................................................................................................................................................... 16
lymphomas ....................................................................................................................................................... 16
carcomas .......................................................................................................................................................... 16
kankergenetica....................................................................................................................................................... 16
verstoorde cellulaire processen bij kanker ......................................................................................................... 16
kanker = genetische aandoening .......................................................................................................................... 16
genen betrokken bij kanker ................................................................................................................................. 17
molec therapie .................................................................................................................................................. 18
biomerkers ........................................................................................................................................................ 18
populatiegenetica ...................................................................................................................................................... 18
allel- en genotypefreq ............................................................................................................................................. 18
genomics  toekomst ............................................................................................................................................... 19
genoom in kaart brengen......................................................................................................................................... 19
next generation genetics ....................................................................................................................................... 20

, HISTORISCH PERSPECTIEF

Genetica meestal toevallig ontdekt
Vroeger ontstaan mens: mini mens in spermacel, eicel = voeding (animalkulism), mini mens in eicel (ovisme)
Charles Darwin: eicel en spermacel belangrijk => overerving van kenmerken
 Kleine deeltjes (gemmules) van uiterlijke kenmerken in eicel/spermacel
Nature: genen <-> nurture: opvoeding + omgeving => realiteit = mix

WETTEN VAN MENDEL

1. Uniformiteitswet: 2 homozyg met 1 versch kenmerk => nakomelingen gelijk
2. Splitsingswet: kruising F1 => versch fenotypen in F2 met 3:1 verhouding (dom-rec)
3. Onafhankelijkheidswet: kenmerken = onafh overgeerfd


DOM VS REC
Dom = altijd tot uiting als aanwezig
Rec = niet tot uiting bij aanwezigheid van dom, wel als 2 rec
Bij mens: nooit simpel, nooit 1 gen => wel belangrijk bij ziektes


HOMOZYG VS HETEROZYG VS HEMIZYG
Homozyg = 2 dez allelen
Heterozyg = 2 versch allelen
Hemizyg = 1 allel (vb: X chr bij mannen)


CODOM EN ONVOLLEDIGE DOM
Mendel: volledige dom
Onvolledige dom = intermed = semidom = incomplete dom = mengtype
Codom (vb: bloedgroep AB)  beide fentotypes

STAMBOMEN




Cosanguiniteit = bloedverwantschap
Enkel mannen hebben aandoening = X gebonden
Uitzonderingen:
 Dom kenmerk kan in zaadcel van vader ontwikkelen = de novo mutatie
 Onvolledige penetrantie = drager zijn van dom kenmerk die niet tot uiting komt

CYTOGENETICA

= onderzoek van chromosomen tijdens celdeling
Meiose
Chromosomale basis van geslacht => X en Y chr (fruitvliegjes/drosophilia)

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