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100

use of computer software in studying genomics

1. Genomics

2. Specific treatments

3. SNP

4. Bioinformatics

5. Genome

4. Bioinformatics

100

study of similarities and differences in genomes

1. clones

2. comparative genomics

3. HapMap

4. Aspen trees

5. Sea anemone

2. comparative genomics

100

base that differs

1. Dolly

2. Haplotype

3. Allele

4. Common functions

5. Cloning

3. Allele

200

study of base sequences in DNA

1. Genomics

2. Specific treatments

3. SNP

4. Bioinformatics

5. Genome

1. Genomics

200

invertebrate that naturally forms clones

1. clones

2. comparative genomics

3. HapMap

4. Aspen trees

5. Sea anemone

5. Sea anemone

200

sequence of SNP'S 

1. Dolly

2. Haplotype

3. Allele

4. Common functions

5. Cloning

2. Haplotype

300

sequence of genes (or bases) in an organism's chromosomes

1. Genomics

2. Specific treatments

3. SNP

4. Bioinformatics

5. Genome

5. Genome

300

produce many clones asexually 

1. clones

2. comparative genomics

3. HapMap

4. Aspen trees

5. Sea anemone

4. Aspen trees

300

genes in humans and in fruit flies have _____

1. Dolly

2. Haplotype

3. Allele

4. Common functions

5. Cloning

4. common functions

400

possible to design by sequencing a person's DNA

1. Genomics

2. Specific treatments

3. SNP

4. Bioinformatics

5. Genome

2. Specific treatments

400

section of DNA with SNP'S 

1. clones

2. comparative genomics

3. HapMap

4. Aspen trees

5. Sea anemone

3. HapMap

400

DNA from mature cell placed in an egg

1. Dolly

2. Haplotype

3. Allele

4. Common functions

5. Cloning

5. Cloning

500

area in DNA where there is a different base than in most people 

1. Genomics

2. Specific treatments

3. SNP

4. Bioinformatics

5. Genome

3. SNP

500

genetically identical organisms

1. clones

2. comparative genomics

3. HapMap

4. Aspen trees

5. Sea anemone

1. Clones

500

the first mammal to be cloned 

1. Dolly

2. Haplotype

3. Allele

4. Common functions

5. Cloning

1. Dolly