Biology Jeopardy GeneticsThe Central Dogma BiodiversityCellsPlantsAnimals $100 $200 $300 $400 $500

Genetics - $100 It’s the advantage that sexually reproducing organisms have over asexually reproducing organisms. A – Genetic variation B – Genetic stability C – Increased fertilization rate D – Increased reproductive rate

Genetics - $100 A – What is genetic variation? $$$

Genetics - $200 A cloned plant has a diploid chromosome number of 12. It’s the diploid chromosome number of the plant cell that was used to produce the cloned plant. A – 6 B – 12 C – 18 D – 24

Genetics - $200 B - What is 12? $$$

Genetics - $300 Hitchhiker’s thumb (H) is dominant to no hitchhiker’s thumb (h). A woman without hitchhiker’s thumb marries a man that is heterozygous for hitchhiker’s thumb. It is the probable genotypic ratio of their children. A – 0% Hh : 100% hh B – 50% Hh : 50% hh C – 75% Hh : 25% hh D – 100% Hh : 0% hh

Genetics - $300 B - What is 50% Hh : 50% hh? $$$

Genetics - $400 In some plants, when the soil pH is >7 blue flowers are produced and when the soil pH is <7 pink flowers are produced. It’s the best explanation for the color changes in these plants. A – Multiple alleles determine the color of the flowers. B – The change in flower color is the result of a mutation. C – Polygenic inheritance produces the different flower colors. D – The environment influences the expression of the gene for flower color.

Genetics - $400 D - What is “The environment influences the expression of the gene for flower color?” $$$

Genetics - $500 This illustration represents samples of DNA that were cut during DNA fingerprinting in a crime lab. It’s the accurate description of the creation of these bands of DNA. A – DNA polymerases are used to cut the DNA randomly. B – Restriction enzymes are used to cut the DNA randomly. C – DNA polymerases are used to cut the DNA at specific sites. D – Restriction enzymes are used to cut the DNA at specific sites.

Genetics - $500 D - What is “Restriction enzymes are used to cut the DNA at specific sites?” $$$

The Central Dogma - $100 This is where transcription takes place. A – In the cytoplasm. B – At the ribosomes. C – In the nucleus. D – Across the cell membrane.

The Central Dogma - $100 C – What is “In the nucleus?” $$$

The Central Dogma - $200 They are the materials required for transcription. A – DNA, DNA polymerase III, initiation sequence, helicase B – ribosome, mRNA, tRNA, amino acids C – DNA, RNA polymerase, adenine, uracil, guanine, cytosine D – RNA, RNA polymerase, adenine, thymine, guanine, cytosine

The Central Dogma - $200 C – What is DNA, RNA polymerase, adenine, uracil, guanine, cytosine? $$$

The Central Dogma - $300 It’s the difference between DNA replication and transcription. A – DNA replication copies the DNA during the S phase of mitosis and transcription makes mRNA copy of the genes. B – DNA replication makes an RNA copy of the genes and transcription copies the DNA during the G 1 phase of mitosis. C – DNA replication copies the DNA during the G 1 phase of mitosis and transcription makes a tRNA copy of the genes. D – DNA replication copies the genes during the G 2 phase of mitosis and transcription makes a DNA copy of the introns.

The Central Dogma - $300 $$$ A – What is “DNA replication copies the DNA during the S phase of mitosis and transcription makes mRNA copy of the genes?”

The Central Dogma - $400 It’s the amino acid sequence of the mRNA sequence AUGCACGCAGUGUAA. A – Met, His, Pro, Iso, Gly B – Met, His, Ala, Val C – Met, Thr, Asp, Lys, Ser D – Met, His, Leu, Cys, Glu

The Central Dogma - $400 B – What is Met, His, Ala, Val? $$$

The Central Dogma - $500 It’s the amino acid sequence of the DNA sequence TACGTTACCCAT. A – Met, Val, Ser, Val B – Met, His, Ala, Val C – Met, Glu, Try, Val D – Met, Glu, Ala, Iso

The Central Dogma - $500 C - What is Met, Glu, Try, Val? $$$

Biodiversity - $100 The crab Lybia tessellata carries a pair of sea anemones on its claws. It uses the sea anemone’s stinging tentacles as protection and the sea anemones feed on particles the crab leaves behind. It is the symbiotic relationship this illustrates. A – Commensalism B – Mutualism C – Parasitism D – Predation

Biodiversity - $100 B - What is mutualism? $$$

Biodiversity - $200 This graph represents the changes in human population over a period of 2000 years. It’s what can be concluded from the graph. A – Growth was constant over the last 2000 years. B – Growth was exponential over the last 200 years. C – Growth reached carrying capacity around D – Growth will level off around 2010.

Biodiversity - $200 $$$ B - What is “Growth was exponential over the last 200 years?”

Biodiversity - $300 It’s the graph that represents the maximum carrying capacity of a bacterial colony.

Biodiversity - $300 C - What is…? $$$

Biodiversity - $400 In an ecosystem, it’s the most likely reason for an increase in the producer population if there is an increase in the carnivore population A – Fewer herbivores B – Higher temperatures C – Less food D – More oxygen

Biodiversity - $400 A - What is fewer herbivores? $$$

Biodiversity - $500 This diagram shows the carbon flow in an ecosystem. It will most likely occur if decomposers are removed. A – Atmospheric CO 2 will increase. B – Atmospheric CO 2 will decrease. C – CO 2 used by producers will increase. D – CO 2 needed by consumers will decrease.

Biodiversity - $500 B - What is “atmospheric CO 2 will decrease?” $$$

Cells - $100 It is the organelle that is NOT membrane bound. A – ribosome B – nucleus C – endoplasmic reticulum D – golgi apparatus

Cells - $100 A - What is a ribosome? $$$

Cells - $200 It’s membrane is attached to the nuclear membrane. A – Smooth Endoplasmic Reticulum B – Rough Endoplasmic Reticulum C – Golgi Apparatus D – Lysosome

Cells - $200 B - What is the Rough ER? $$$

Cells - $300 It is present in plant and animal cells and produces ATP through the process of respiration. A – DNA B – Chloroplasts C – Mitochondria D – Glycoproteins

Cells - $300 $$$ C - What are mitochondria?

Cells - $400 It’s the process that ALWAYS involves the movement of materials from inside the cell to outside the cell. A – Phagocytosis B – Endocytosis C – Diffusion D – Exocytosis

Cells - $400 D - What is exocytosis? $$$

Cells - $500 It is the organelle that binds to mRNA and captures tRNA molecules in the process of protein synthesis. A – Lysosomes B – Ribosomes C – Transmembrane glycoproteins D – Nuclear pores

Cells - $500 B - What are ribosomes? $$$

Plants - $100 6CO 2 + 6H 2 O  C 6 H 12 O 6 + 6O 2 A – Decomposition Reaction B – Single Replacement Reaction C – Photosynthesis D – Respiration

Plants - $100 C - What is photosynthesis? $$$

Plants - $200 Of the two main phases of photosynthesis, it’s the first phase. A – Light dependent reactions B – Calvin Cycle C – Light independent reactions D – Krebs Cycle

Plants - $200 A - What are the light dependent reactions. $$$

Plants - $300 They are the molecules that supply energy to the Calvin cycle. A – ATP and NADPH B – ADP and NADP+ C – ATP and NADP+ D – ADP and NADPH

Plants - $300 A - What are ATP and NADPH? $$$

Plants - $400 The Calvin cycle converts it into C 6 H 12 O 6. A – CO B – H 2 O C – CO 2 D – CO 2 and H 2 O.

Plants - $400 D - What are CO 2 and H 2 O? $$$

Plants - $500 It’s the order of the light dependent reactions. A – Photosystem II, Electron Transport Chain, Photosystem I, ATP Synthase B – Photosystem I, Photosystem II, Electron transport Chain, ATP Synthase C – Photosystem I, Photosystem II, ATP Synthase, Electron Transport Chain D – Photosystem II, Photosystem I, Electron Transport Chain, ATP Synthase

Plants - $500 D - What is Photosystem II, Photosystem I, Electron Transport Chain, ATP Synthase? $$$

Animals - $100 It is the three main phases of cellular respiration in the correct order. A – Electron Transport Chain, Glycolysis, Krebs Cycle B – Electron Transport Chain, Glycolysis, Calvin Cycle C – Glycolysis, Electron Transport Chain, Krebs Cycle D – Glycolysis, Krebs Cycle, Electron Transport Chain

Animals - $100 $$$ D - What is Glycolysis, the Krebs Cycle, and the Electron Transport Chain?

Animals - $200 It’s the product of Glycolysis. A – Lactic Acid B – Pyruvic Acid C – Acetic Acid D – Hydrochloric Acid

Animals - $200 $$$ B - What is pyruvic acid?

Animals - $300 Twenty four of the thirty six ATP molecules produced during cellular respiration are made during this process. A – Glycolysis B – Krebs Cycle C – Citric Acid Cycle D – Electron Transport

Animals - $300 $$$ D - What is electron transport?

Animals - $400 This substance is needed to begin the process of glycolysis. A – ATP B – NADP C – NADPH D – CO 2

Animals - $400 $$$ A - What is ATP?

Animals - $500 If oxygen is lacking, cells can resort to the process of fermentation. These are the products of fermentation in animal cells. A – Alcohol and CO 2 B – Lactic acid and O 2 C – Alcohol and O 2 D – Lactic Acid and CO 2

Animals - $500 $$$ D - What are Lactic acid and CO 2 ?