left
monohybrid cross
1. RrYy x RrYy
2. Law of Independent Assortment
3. RRYY pea plants
4. RRyy pea plants
5. Rr x Rr
5. Rr x Rr
genes on the same chromosome
1. Karyotype
2. XY
3. XX
4. More common in human males
5. Linked
5. Linked
process of drawing out amniotic fluid around a fetus
1. Y chromosome
2. Amniocentesis
3. Synapse
4. Not significantly different
5. Tetrad
2. Amniocentesis
all round, green peas
1. RrYy x RrYy
2. Law of Independent Assortment
3. RRYY pea plants
4. RRyy pea plants
5. Rr x Rr
4. RRyy pea plants
human female
1. Karyotype
2. XY
3. XX
4. More common in human males
5. Linked
3. XX
observed and expected difference less than 5%
1. Y chromosome
2. Amniocentesis
3. Synapse
4. Not significantly different
5. Tetrad
4. not significantly different
all round, yellow peas
1. RrYy x RrYy
2. Law of Independent Assortment
3. RRYY pea plants
4. RRyy pea plants
5. Rr x Rr
3. RRYY pea plants
human male
1. Karyotype
2. XY
3. XX
4. More common in human males
5. Linked
2. XY
missing some genes that are on the X chromosome
1. Y chromosome
2. Amniocentesis
3. Synapse
4. Not significantly different
5. Tetrad
1. Y chromosome
dihybrid cross
1. RrYy x RrYy
2. Law of Independent Assortment
3. RRYY pea plants
4. RRyy pea plants
5. Rr x Rr
1. RrYy x RrYy
pictures of chromosomes
1. Karyotype
2. XY
3. XX
4. More common in human males
5. Linked
1. Karyotype
formed by the process of synapsis
1. Y chromosome
2. Amniocentesis
3. Synapse
4. Not significantly different
5. Tetrad
5. Tetrad
allele for a gene does not affect which is inherited for another gene
1. RrYy x RrYy
2. Law of Independent Assortment
3. RRYY pea plants
4. RRyy pea plants
5. Rr x Rr
2. Law of Independent Assortment
hemophilia and color blindness
1. Karyotype
2. XY
3. XX
4. More common in human males
5. Linked
4. more common in human males
when homologous chromosomes come together
1. Y chromosome
2. Amniocentesis
3. Synapse
4. Not significantly different
5. Tetrad
3. Synapse