Answer:
so i know i cant name all but jungle book, rio, fox and the hound, robin hood, pocahantes, brother bear, and bambi
i know there are alot more but thats all i can come up with
Balto - Taiga, Aladdin - Dessert, Frozen - Tundra, Tarzan - Tropical Rainforest, The Lion King - Savanna, Home on the Range - Grasslands
Suppose an operon has the following characteristics: (1) The operon codes for structural proteins that convert compound Qto compound B. (2) The operon is controlied by a constitutively expressed regulatory gene called reg. (3) In wild-type individuals, the operon is transcribed in the absence of compound B but not in the presence of compound B. (4) in reg mutants, the operon is constitutively transcribed. Is this operon inducible or repressible? Why? O It is inducible because wild-type transcription does not occur in the presence of compound B. O t is inducible because the operator in reg mutants can still bind to compound B O It cannot be determined because the number of structural genes is unknown. O t is repressible because reg transcription only occurs in the presence of compound B O t is repressible because wild-type transcription is repressed in the presence of compound B
Answer: It is repressible because wild-type transcription is repressed in the presence of Compound B
Explanation:
An operon is a segment of DNA containing adjacent genes including structural genes, an operator gene, and a regulatory gene. In other words you can say it is the functional unit of transcription and gene regulations.
There are 3 types of operons
1) inducible operon- this system is a regulated unit of genetic material which is switched on in response to the presence of a chemical. Means that transcription is turned on when a specific molecule is present.
2) Repressible Operon: in this system, transcription stops when the repressor gene product is activated and the sufficient amounts of the gene product inhibit further transcription.
The third is Constitutive Operon: in this case, the amount of gene product is constant.
Which of these is an example of biomass energy?
Answer:
Some examples of biomass fuels are wood, crops, manure, and some garbage. When burned, the chemical energy in biomass is released as heat. If you have a fireplace, the wood you burn in it is a biomass fuel.
Explanation:
Examples of biomass energy are the use of organic means to obtain renewable energy.
What is biomass energy?Biomass is a renewable energy source that uses organic means, such as various vegetables, for energy production. Its operation is linked to the use of various energy production techniques, with emphasis on
pyrolysisgasificationcombustion and co-combustion.With this information, we can conclude that examples of biomass energy are the use of organic means to obtain renewable energy.
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Animals that have external fertilization are most likely to reproduce in which areas?
Animals with external fertilization typically reproduce in aquatic environments, where the water facilitates the meeting of eggs and sperm during spawning. This process is common among fish, crustaceans, mollusks, echinoderms, and certain amphibians like frogs.
Explanation:Animals that have external fertilization are most likely to reproduce in aquatic environments. This mode of reproduction typically involves both eggs and sperm being released into the water, where fertilization then occurs. External fertilization is predominant in many aquatic species, such as fish, crustaceans, mollusks, and echinoderms, due to the water's role as a medium for the gametes to meet.
Frogs, corals, and cephalopods like squid and octopuses also engage in this process of spawning, which may be influenced by factors like water temperature and daylight length. Spawning involves females releasing eggs while males release sperm nearby, allowing for fertilization in the water. This contrasts with internal fertilization, which is more common in terrestrial animals and involves direct deposit of sperm into the female's reproductive tract.
A microbiologist has identified a new gram-negative pathogen that causes liver disease in rats. She suspects that the bacterium’s fimbriae are a virulence factor. Describe how molecular Koch’s postulates could be used to test this hypothesis.
Explanation:
Koch formulated a set of criteria that could be used to identify the pathogen responsible for a specific disease and these criteria came to be known as Koch’s postulates:
The organism must be regularly associated with the disease and its characteristic lesions
The organism must be isolated from the diseased host and grown in culture
The disease must be reproduced when a pure culture of the organism is introduced into a healthy, susceptible host
The same organism must be re-isolated from the experimentally infected host
In the given hypothesis , Koch's postulates could be used as:
1) identify pathogen associated with disease 2) isolate or purify pathogen 3) test subject gets pathogen 4) same disease/ causes liver disease or not
Hershey and Chase set out to determine what molecule served as the unit of inheritance. They completed a series of transduction experiments in which E. coli was infected by a T2 virus. Which radiolabeled element was found in the cell and what was the molecule it was found in:
A) protein
B) RNA
C) ribosome
D) DNA
Answer:
D) DNA
Explanation:
The Hershe-Chase experiments were a series of expremients conducted in 1952 by Alfred Hershey and Martha Chase that helped to confirm that DNA is the genetic material (Unit of inheritance).
In their experiments, Hershey and Chase showed that when bacteriophages which were composed of DNA and Protien, infect bacteria, their DNA enters the host bacterial cell, but most of their protien does not. Although the results were not conclusive, and Hershey and Chase were cautious in their interpretation, previous, contemporanous, and subsequent discoveries all served to prove that DNA IS THE HEREDITARY MATERIAL.
Hershey and Chase's experiments with T2 bacteriophage and E. coli used radioactive isotopes to show that DNA, marked by 32P, not protein, was the hereditary material since it was found inside the cells. So the correct option is D.
Explanation:Hershey and Chase conducted experiments to confirm what molecule served as the unit of inheritance by using the T2 bacteriophage, a virus that infects E. coli. They labeled the phage with two different radioactive isotopes, 32P, and 35S, to distinguish between DNA and protein within the phage. The 32P-labeled DNA was found inside the bacterial cells after infection, while the 35S-labeled proteins remained outside the cells. This crucial result led to the conclusion that DNA, not protein, is the molecule responsible for heredity.
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Which statement explains how the fossil record supports the theory of evolution?
A. The fossil record shows how organisms have changed from relatively complex organisms to simpler organisms.
B. The fossil record shows how organisms have changed from relatively simple organisms to more complex organisms.
C. The fossil record shows that all organisms are simple organisms.
D. The fossil record shows that all organisms are complex organisms.
It's B
Explanation:
Because the fossil record shows how organisms have evoluate from relatively simple organisms to more complex organisms
Answer:
b ples thank
Explanation:
Most of the body features found in invertebrates evolved during which of the following
periods?
1 Jurassic 2 Cambrian 3 Cretaceous and 4 Permian
Answer: 2. Cambrian
Explanation:
Difference between xylem and phloem
Which of the following events would most unpredictably affect an ecosystem?
A. the removal of one old tree
B. a mutation in a native bacteria
C. the annual birth of a new generation of deer
D. a rainstorm that causes minor flooding.
Answer:
B
Explanation:
It would be a mutation in a native bacteria.
The father of modern medicine, Hippocrates, described making a tea that was effective against fever by boiling willow bark. Years later, the active ingredient was isolated and chemically modified to produce the drug we now know as:
Answer:
Aspirin
Explanation:
Compare Prokaryotic cells and Eukaryotic cells.
Answer: Prokaryotic cells do not have a nucleus. Both prokaryotic and eukaryotic cells have structures in common. All cells have a plasma membrane, ribosomes, cytoplasm, and DNA. The plasma membrane, or cell membrane, is the phospholipid layer that surrounds the cell and protects it from the outside environment
Explanation:
Answer:
Eukaryotes cells carries one, where as prokaryotes don't. ... Cell membrane is present in eukaryotes and absent in prokaryotes. Lysosomes, peroxisomes, Endoplasmic reticulum, Mitochondria are present in eukaryotic cells, yet absent in prokaryotic cells
Explanation:
Big foreheads(F) are dominant to little foreheads. A woman with a small
forehead marries a man with a big forehead. What is the probability the man
and woman's children will have big foreheads? What is the probability of little
foreheads? Hint-you need to do two Punnett squares.
Answer:
There is a 3/4 chance the children will have big foreheads and a 1/4 chance they will have little foreheads.
Explanation:
Punnett squares can be used to find the probability of offspring inheriting certain traits from their parents. Before we can set one up, let's go over some terms:
Alleles are the different variations of genes which determine what traits we have. They come in two flavors: dominant and recessive. Dominant alleles always express themselves, which recessive alleles are only expressed if dominant alleles are absentGenotypes are the specific combination of alleles present in an organism. There are either two dominant (DD), one of each (Dr), or two recessive (rr) alleles.Because big foreheads are the dominant trait, the man with a big forehead could have two possible genotypes: FF or Ff. The woman with the small forehead must have two recessive genes, so her genotype must be ff.
To set up a Punnett square, make a two-by-two square. Label the top with one parent's genotype and the side with the other parent's genotype. Then fill in the four squares with the four possible combinations of alleles.
In this case, 6 of the 8 combinations have the dominant allele, so the child will have a big forehead. 2 of the 8 combinations have only the recessive allele, so the child will have a small forehead.
Fungi often function as decomposers in an ecosystem. If you traced the carbon in a molecule of carbon dioxide from the air into a molecule of glucose inside a fungal cell, what other organisms did it have to go through (if any) to get into the fungus?
Answer:
algae
Explanation:
If a carbon in a molecule of carbon dioxide from the air is traced into a molecule of glucose inside a fungal cell, the carbon must have gone through an algae in order to get into the fungus.
Fungi generally do not have the ability to fix carbon dioxide through photosynthesis. However, they are able to form a symbiotic relationship with algae through an organism known as lichen.
In lichen, the fungi and the algae enter a mutually beneficial relationship in which the fungi provide moisture and nutrient to the algae and in turn, the algae provide food to the fungi out of the sugar produced from photosynthesis.
Hence, a carbon traced from the air to a fungi most likely passed through an algae as a result of symbiotic relationship between the two organisms.
Final answer:
The carbon from CO₂ can be incorporated into a fungal cell's glucose through the decomposition of plant material, which initially fixes the carbon during photosynthesis. Fungi break down difficult-to-digest components like cellulose and lignin in dead plants, facilitating nutrient cycling.
Explanation:
The carbon in a molecule of carbon dioxide from the air can be incorporated into a molecule of glucose inside a fungal cell primarily through the process of photosynthesis performed by plants. Plants absorb CO₂ during photosynthesis to produce glucose and oxygen. When plants die and decompose, fungi with their specialized enzymes break down the plant material, releasing and utilizing the glucose molecules stored within. This way, the trace path of carbon from the atmosphere into a fungus does not necessitate passing through any other organism besides the decaying plant that the fungus decomposes.
Fungi are important decomposers, breaking down dead organic matter such as wood containing cellulose and lignin, which are difficult for other organisms to digest. The resulting glucose serves not only as a nutritional source for the fungus but also contributes to the cycling of nutrients within the ecosystem.
Some fungi can further contribute to ecosystem health through bioremediation, breaking down pollutants like diesel oil and heavy metals such as cadmium and lead.
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A teacher demonstrated the temperature change when hydrochloric acid is added to sodium hydroxide. This is the method used. 1. Add 25.0 cm3 of sodium hydroxide solution to a polystyrene cup. 2. Measure the temperature of the sodium hydroxide solution. 3. Add 25.0 cm3 of hydrochloric acid to the sodium hydroxide solution. 4. Stir the solution. 5. Measure the maximum temperature of the solution. (a) What would be the most suitable piece of equipment to use to measure the temperature of the solution and the volume of the hydrochloric acid?
Answer:
The equipment to measure the temperature of the solution is Thermometer and for the volume of hydrochloric acid is Pipette.