| A | B |
|---|
| GREGOR MENDEL | DISCOVERED INHERITED TRAITS WHILE STUDYING PEA PLANTS, DETERMINED PHYSICAL TRAITS ARE A RESULT OF GENES |
| FREIDRICH MIESCHER | DISCOVERED DNA |
| WALTER SUTTON | WORKED WITH GRASSHOPPERS AND ESTABLISHED THE CHROMOSOME THEORY |
| THOMAS HUNT MORGAN | USED EYE COLOR OF FRUIT FLIES TO DETERMINE A LINK BETWEEN GENES AND CHROMOSOMES |
| FREDRICK GRIFFITH | USED TRANSFORMATION OF BACTERIA INJECTED IN MICE TO DETERMINE TRANSFORMING AGENT WAS AN INHERITANCE MOLECULE |
| AVERY, MACLEOD, & MACCARTY | DEFINED TRANSFORMING AGENT AS DNA |
| EDWIN CHARGAFF | IDENTIFIED THE DNA BASES AND DISCOVERED THE 1:1 RATIO OF BASE PAIRS |
| MAURICE WILKINS | photographed DNA using X-Ray crystallography |
| DNA | DEOXYRIBO NUCLEIC ACID |
| DNA HELICASE | essential during DNA replication because separates double-stranded DNA into single strands |
| DNA POLYMERASE | usually work in pairs to create two identical DNA strands from a single original DNA molecule, by "reading" the existing DNA strands to create two new strands that match the existing ones |
| DNA LIGASE | joins new strand of DNA to old strand by forming new chemical bond |
| DNA REPLICATION | the process of making identical copies of DNA before cell division |
| SEMICONSERVATIVE REPLICATION | Each half of an original DNA molecule serves as a templete for a new strand, and the two new DNA molecules each have one old and one new strand. |
| DNA HELICASE | unwinds the double helix of DNA and separates the DNA strands in preparation for DNA replication. |
| DNA POLYMERASE | Enzyme involved in DNA replication that joins individual nucleotides to produce a DNA molecule |
| LEADING STRAND | the strand of DNA that is continuously synthesized into the replication fork. |
| LAGGING STRAND | The strand that is synthesized away from the replication fork , in fragments using sections called Okazaki fragments. |
| OKAZAKI FRAGMENTS | Small fragments of DNA produced on the lagging strand during DNA replication, joined later by DNA ligase to form a complete strand. |
| NUCLEIC ACIDS | Macromolecules that includes DNA and RNA |
| NUCLEOTIDE | A subunit of nucleic acids formed from a simple sugar, a phosphate group, and a nitrogenous base. |
| ADENINE | Nitrogen base that pairs with thymine in DNA |
| GUANINE | A nitrogen base found in DNA; pairs only with cytosine. |
| THYMINE | A nucleotide that pairs with adenine. Found only in DNA. |
| CYTOSINE | A nitrogenous base found in DNA; pairs with guanine |
| HYDROGEN BOND | A weak chemical bond used to hold complementary base pairs together |
| BASE PAIRS | Any of the pairs formed between complementary bases in the two nucleotide chains of DNA |
| REPLICATION FORK | A Y-shaped region on a replicating DNA molecule where new strands are growing. |
| DNA | Long Double Helix, made of Nucleotides |
| DEOXYRIBOSE | sugar in DNA |
| ROSALIND FRANKLIN | photographed DNA using sharp X-Ray diffraction; Watson and Crick used her data to discover shape of DNA |
| HERSHEY & CHASE | confirmed DNA was genetic material, not protein |
| WATSON & CRICK | discovered double helix 3 dimensional structure |
| PURINE | composed of a double ring of six-member nitrogen-containing ring and a five-member nitrogen-containing ring joined together...includes adenine and guanine |
| PYRIMIDINE | have a six-member nitrogen-containing ring...includes cytosine and thymine |
