1.
Which list below describes the next steps of evaporated water through the water cycle? (3 points)
Condensation, precipitation, runoff, ocean storage
Transpiration, condensation, precipitation, ocean storage
Precipitation, condensation, runoff, groundwater
Evaporation, condensation, precipitation, runoff
2.
What is a possible cost of using nonrenewable energy resources? (3 points)
Greenhouse gases
Less water pollution
Sustainable energy
Costs more money
3.
What is the benefit of recycling plastic and paper products to wildlife? (3 points)
Less expense
Clean fuel
Sustainable energy
Fewer landfills
4.
What is the next phase of the carbon cycle for the carbon source labeled A? (3 points)
Label A shows a collection of coal, oil and gas. Label B shows a collection of trees and vegetation. Label C shows sky and open atmosphere.
Photosynthesis
Ocean storage
Fossil fuel emissions
Transpiration
5.
Where is the last storage location for melted snow? (3 points)
Rivers
Ocean
Streams
Mountains
6.
How can the carbon stored in plants reach the atmosphere? (3 points)
Evaporation
Diffusion
Photosynthesis
Cellular Respiration
7.
Which statement best describes the role of plants in the water and carbon cycles? (3 points)
Plants release oxygen when they decompose take in oxygen for photosynthesis.
Plants take in carbon dioxide during photosynthesis and absorb water through their leaves and roots.
Plants take in oxygen during photosynthesis and absorb carbon dioxide through their leaves and roots.
Plants use oxygen to perform photosynthesis and release carbon dioxide as a by-product.
Answers
Answer:
1. d
2. a
3. d
4. probably c
5. b
6. d
7. b
Explanation: Got straight A's in all my biology classes, hope this helps!
Related Questions
Suppose you decide to investigate patterns of genetic variation in a population sample of Pacific Bluefin tuna. subjo subj1 subj2 subj3 subj4 ATAATAAAAA AATAATAAAA AAATAΑΑΑΑΑ ΑΑΤΑΑΑΑΑΑΑ Α AAAAAAAATA AATAATAAAA AAATAΑΑΑΑΑ ΑΑΑΑΑΑΑΑΑΑΑ AAAAΤAAAAA TATAATAAAA AAATATAΑΑΑ ΑΑΑΑΑΑΑΑΑΑΑ ΑΑΑΑΑΑΑΑΑΑ ΑΑΤΑATAAAA AAATAAATAA ATAAAAAAAA A ААААТААААА АААТАТАААА АААТАААААА АААААААААА А subj5 subj6 subj7 subj8 subj9 ΑΑΑΑΤΑΑΑΑΑ ΑΑΑΑΑΤΑΑΑΑ ΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑ Α ААААААТААА ААТААТАААА АААТАААААА АААААААААА А ΑΑΑΑΑΑΑΑΑΑ ΑΑΑΑΑΑΑΑΑ ΑΑΑΤΑΑΑΑΑΑ ΑΑΑΑΑΑΑΑΑΤ Α ΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑ ΑΑΑΤΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑΑ AAAAAAAAAA AAAAAΤAAAA AAATAATAΑΑ ΑΑΑΑΑΑΑΑΑΑ Α a. What is the proportion of polymorphic sites? b. Calculate Theta Pi (Tl) and Theta (S) C. Calculate Tajima's D = (π - Θs)/Var(π - Θs) for these sequences. Are they evolving neutrally? d. How would each of the following demographic scenarios impact our estimates of Tajima's D and why? Hint: draw the expect gene tree for each scenario 1. Bottleneck: 2. Population Structure: 3. Population Expansion:
Answers
a. The proportion of polymorphic sites is the number of variable sites divided by the total number of sites.
b. To calculate Theta Pi (π) and Theta (S), follow these steps:
1. Calculate the average number of pairwise differences between sequences for π.
2. Calculate the number of segregating sites for S.
3. Divide each value by the total number of sites in the sequence.
c. To calculate Tajima's D:
1. Compute the difference between π and Θs.
2. Calculate the variance of this difference.
3. Divide the difference by the square root of the variance.
A Tajima's D value close to zero indicates neutral evolution.
d. Demographic scenarios impact Tajima's D:
1. Bottleneck: Tajima's D increases due to the reduction of rare alleles, causing negative selection.
2. Population Structure: Tajima's D increases as a result of subdivided populations.
3. Population Expansion: Tajima's D decreases due to the increase of rare alleles in the expanding population.
Remember, each scenario will affect the expected gene tree and Tajima's D differently.
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Please help.
Measures to prevent landslides.
I need 10 points.
Answers
Answer:
deleted?
Explanation:
whaaaat how can youbask
The vascular tissue of a plant transports various substances. Which substance would you expect to find in phloem, but not in xylem? a. Glucose b. Iron c. Potassium d. Water
Answers
While xylem transports water and mineral salts up from the roots to various parts of the plant, phloem transports sucrose and amino acids between the leaves and different parts of the plant. Thus, option D is correct.
What is the function of xylem and phloem?Water and dissolved minerals are distributed upward through the plant by the xylem, from the roots to the leaves. The phloem carries nutrients from the leaves to the roots.
The vascular cambium gives rise to xylem, vascular tissue that moves nutrients and water throughout the plant.
The vascular tissue known as phloem, which carries big molecules like sugar, develops outward from the vascular cambium. Increased xylem and phloem cells are produced when the vascular cambium cells divide.
Therefore, water is the substance that you expect to find in phloem.
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What advantage does nuclear power have over power produced through the combustion
of fossil fuels?
A. Nuclear power produces only greenhouse gases, while combustion of fossil
fuels produces pollutants.
B. Nuclear power does not directly produce greenhouse gases or air pollutants,
while combustion produces both.
O c. Nuclear power produces only air pollutants, while combustion of fossil fuels
produces greenhouse gases.
XO D. Nuclear power uses a renewable fuel resource, while fossil fuels are
nonrenewable resources.
Answers
Answer:
B. Nuclear power does not directly produce greenhouse gases or air pollutants,
while combustion produces both.
Explanation:
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can someone help me label the food pyramid!!
Answers
Note that the items, arranged according to the right order in the Pyramid is given as follows;
Apex predators (at the top of the food chain)Tertiary consumers (carnivores that eat other carnivores)Secondary consumers (carnivores that eat herbivores)Primary consumers (herbivores)ProducersWhat is the rationale for the above response?The producers are at the base of the pyramid, followed by primary consumers that consume the producers.
Secondary consumers eat the primary consumers, and tertiary consumers eat the secondary consumers. Finally, at the top of the pyramid, there are the apex predators that eat other predators. The pyramid represents the energy flow from the producers to the top-level predators, with each level of the pyramid having less energy than the level below it.
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Select the best answer for the question.
13. How does the principle of faunal succession assist the technique
O A. It creates unconformities in the rock layers.
O B. It accounts for the tectonic movement throughout history.
O C. It prioritizes parts before the whole appearance of organisms.
O D. Fossils appear in the strata in a specific order based on age.
Answers
Fossils appear in the strata in a specific order based on age. The correct option is D
What is the principle of faunal succession?Principle of faunal succession states that fossils appear in rock strata in a specific, predictable order based on the relative ages of the rock layers and the evolutionary relationships of the organisms represented by the fossils.
This principle allows geologists to use the relative ages of rocks and fossils to determine the relative age of other rocks and fossils in the same area and to establish a relative time scale for geologic events.
Therefore, By comparing the sequence of fossils in different rock strata, geologists can determine which strata are younger and which are older, and thus build a chronological framework for the Earth's history.
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Reasons why wolves have biodiversity and stability in their
ecosystem help!
Answers
Wolves contribute to biodiversity and stability in their ecosystems through their role as keystone species.
As top predators, they regulate prey populations, preventing overgrazing and promoting the health of vegetation.
By controlling herbivore populations, wolves indirectly impact other species, creating a trophic cascade that maintains ecosystem balance. This helps to preserve biodiversity by preventing the dominance of a single species. Additionally, wolves play a crucial role in genetic diversity by selectively preying on weaker individuals, allowing healthier genes to prevail. Their presence and hunting behavior shape the structure and dynamics of their ecosystems, ensuring stability and contributing to overall ecological health.
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scientific concept for the water cycle
Answers
Answer:
Evaporation, condensation, precipitation, Surface Runoff, Infiltration, transpiration
Explanation:
There are six important processes that make up the water cycle. These are:
Evaporation
Evaporation is the process where a liquid, in this case water, changes from its liquid state to a gaseous state. Liquid water becomes water vapor. Although lower air pressure helps promote evaporation, temperature is the primary factor. For example, all of the water in a pot left on a table will eventually evaporate. It may take several weeks. But, if that same pot of water is put on a stove and brought to a boiling temperature, the water will evaporate more quickly.
During the water cycle some of the water in the oceans and freshwater bodies, such as lakes and rivers, is warmed by the sun and evaporates. During the process of evaporation, impurities in the water are left behind. As a result, the water that goes into the atmosphere is cleaner than it was on Earth.
Condensation
Condensation is the opposite of evaporation. Condensation occurs when a gas is changed into a liquid. Condensation occurs when the temperature of the vapor decreases.
When the water droplets formed from condensation are very small, they remain suspended in the atmosphere. These millions of droplets of suspended water form clouds in the sky or fog at ground level. Water condenses into droplets only when there are small dust particles present around which the droplet can form.
Precipitation
When the temperature and atmospheric pressure are right, the small droplets of water in clouds form larger droplets and precipitation occurs. The raindrops fall to Earth.
As a result of evaporation, condensation and precipitation, water travels from the surface of the Earth goes into the atmosphere, and returns to Earth again.
Surface Runoff
Much of the water that returns to Earth as precipitation runs off the surface of the land, and flows down hill into streams, rivers, ponds and lakes. Small streams flow into larger streams, then into rivers, and eventually the water flows into the ocean.
Surface runoff is an important part of the water cycle because, through surface runoff, much of the water returns again to the oceans, where a great deal of evaporation occurs.
Infiltration
Infiltration is an important process where rain water soaks into the ground, through the soil and underlying rock layers. Some of this water ultimately returns to the surface at springs or in low spots downhill. Some of the water remains underground and is called groundwater.
As the water infiltrates through the soil and rock layers, many of the impurities in the water are filtered out. This filtering process helps clean the water.
Transpiration
One final process is important in the water cycle. As plants absorb water from the soil, the water moves from the roots through the stems to the leaves. Once the water reaches the leaves, some of it evaporates from the leaves, adding to the amount of water vapor in the air. This process of evaporation through plant leaves is called transpiration. In large forests, an enormous amount of water will transpire through leaves.
Separation of homologues occurs during
Group of answer choices
meiosis I.
fertilization.
mitosis.
meiosis II.
Answers
Answer:
Meiosis I
Explanation:
The separation of homologues occurs during meiosis I. The Option A.
When does the separation of homologues occur during cell division?During meiosis I, the process of cell division specifically designed for the formation of gametes, the separation of homologous chromosomes occurs. Meiosis I consists of several phases including prophase I, metaphase I, anaphase I, and telophase I.
In prophase I, homologous chromosomes pair up and exchange genetic material through a process called crossing over. During metaphase I, the pairs of homologous chromosomes align at the center of the cell. Then, in anaphase I, the homologous chromosomes separate and move toward opposite poles of the cell.
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1. where are the main areas of population concentration in latin america? what and where are the principal climate and biome types of latin america?
Answers
Latin America is an interesting location to visit for individuals interested in ecology, geography, and natural history because of its variety of climates and biomes.
The largest cities of Latin America, such as Mexico City, So Paulo, Buenos Aires, Lima, Bogotá, and Rio de Janeiro, are where the majority of the population is concentrated. Due to their economic potential, infrastructure, and cultural attractions, these cities have significant populations.
South America has a diverse range of climatic conditions and biomes. The region generally has a tropical or subtropical climate, while certain parts might be more dry or temperate. The biggest tropical rainforest in the world, the Amazon Rainforest spans a sizable chunk of South America.
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if the codon for phe is 5'- u u c 3' what is the anticodon that would be found on the trna that carries phe?
Answers
if the codon for phe is 5'- u u c 3' , AAG is the anticodon that would be found on the trna that carries phe. Their function is to base pair with the codon on a strand of mRNA during translation.
An amino acid's specific genetic information is encoded by a codon, which is a DNA or RNA sequence made up of three nucleotides (also known as a trinucleotide). A trinucleotide sequence called an anticodon is found at one end of a transfer RNA (tRNA) molecule and is complementary to a corresponding codon in an mRNA sequence. During protein synthesis, each time an amino acid is added to a developing polypeptide, a tRNA anticodon couples with the corresponding codon on the mRNA molecule to ensure that the correct amino acid is incorporated into the polypeptide.
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a.) Describe a renewable energy source that would be appropriate for the area you live in. Explain why the characteristics of this energy source are appropriate for your area
b.) Describe one possible drawback of your energy source
Answers
Sunlight energy is the renewable source appropriate for the area we live.
What is renewable energy?Renewable energy refers to clean energy that comes from natural sources which are constantly replenished. For example, sunlight or wind. Our region gets sunlight with more intensity so we can conclude that sunlight is the energy source appropriate for our area.
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56) which of the following statements regarding fungi is false? a) most fungi are pathogenic for humans. b) fungi are eukaryotic heterotrophs. c) fungi reproduce by forming asexual or sexual spores. d) most fungi grow well in acidic culture condition. e) fungi tolerate low moisture conditions. 1/200
Answers
The false statement regarding fungi is that most fungi are pathogenic for humans.
Fungi are heterotrophic eukaryotic organisms that feed on organic matter. They are essential decomposers and play a vital role in nutrient cycling in the ecosystem. They can be unicellular, such as yeasts or multicellular, such as mushrooms. Fungi are distinct from other organisms in their mode of feeding. They cannot make their food like plants, so they absorb nutrients from other organisms. Fungi are categorized into different groups based on their mode of reproduction, habitat, and morphology. Most fungi are pathogenic for humans is a false statement regarding fungi. While some fungi are pathogenic to humans, most of them are not harmful. A few species of fungi are even beneficial to humans. For example, some fungi produce antibiotics like penicillin, which are used to treat bacterial infections. Some fungi are used in the production of bread, cheese, and beer.
So, the statement that most fungi are pathogenic for humans is incorrect. Fungi are eukaryotic heterotrophs: Fungi are eukaryotic, which means they have a membrane-bound nucleus and other organelles. They are also heterotrophic, which means they feed on other organisms. Fungi reproduce by forming asexual or sexual spores: Fungi reproduce either sexually or asexually. Sexual reproduction involves the fusion of two nuclei from two different individuals. Asexual reproduction, on the other hand, does not involve the fusion of nuclei. Instead, a single individual produces spores that develop into new individuals. Most fungi grow well in acidic culture conditions: Fungi can grow under a wide range of conditions. However, most fungi prefer acidic conditions. Some fungi can even tolerate extreme pH values. Fungi tolerate low moisture conditions: Fungi require moisture to grow, but they can tolerate low moisture conditions for a while. Some species of fungi can survive for years without water. However, most fungi grow best under moist conditions.
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Through , larger molecules are formed.
Answers
Answer:
Through polymerization larger molecules are formed.
Hope it helps :)
Answer:
Through polymerization larger molecules are formed.
Explanation:
Your Welcome
will give BRAINLIEST, if explanation is good and answer is correct. Explain how dead plants can be formed into fossil fuels
Answers
Hope you understand the explanation
Answer:
they can be formed into fossil fuels by breaking down.
Explanation:
Fossil fuels are formed when organic matter that has been buried deep within the earth are subject to heat and pressure over millions of years. ... In both cases, the dead organisms are buried over time and the extreme heat and pressure converts these dead organisms into either coal, natural gas, or oil.
Which lobe is found in the area designated by label 1?
Diagram of the brain showing four lobes labeled with numbers. Lobe number one is found at the back of each hemisphere, but deals with visual interpretation. Lobe number two is the middle region of each hemisphere, lying beneath the crown of the skull. It is the cognition part of the brain. Lobe number three is located on the side of each hemisphere, behind the ears. It is associated with speech, hearing, and memory skills. Lobe number four is the front part of each hemisphere. This lobe is the area we use for problem solving, judgment, and impulse control.
Temporal
Occipital
Parietal
Frontal
Answers
Based on the description provided, the lobe found in the area designated by label 1 is the Occipital Lobe.
The Occipital Lobe is located at the back of each hemisphere and is responsible for visual interpretation.
In the given diagram, label 1 corresponds to the Occipital Lobe which deals with visual interpretation. The other lobes mentioned are Parietal, Temporal, and Frontal, which are responsible for cognition, speech/hearing/memory, and problem-solving/judgment/impulse control, respectively.
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Write about the importance of exothermic reactions in daily life and illustrate the destruction caused by their absence
Answers
Everyday uses of exothermic reactions include self-heating cans and hand warmers. When energy is taken in from the surroundings, this is called an endothermic reaction and the temperature of the surroundings decreases.
How does oxygen pass into the blood stream?
A. Oxygen diffuses to the capillaries that are covering the alveoli in
the lungs.
B. The cilia in the nose catch the oxygen and put it into the blood
stream.
C. Capillaries in the nose absorb the oxygen from the air.
D. The bronchioles are warm which lets the oxygen dissolve and
go into the surrounding vessels.
Answers
What is one way that matter moves from
the geosphere to the hydrosphere?
Answers
Answer:
Water in the geosphere can be discharged into surface water, becoming part of the hydrosphere once again, or it could be drawn up into the roots of a plant and become part of the biosphere. Water in the biosphere can be released into the atmosphere through transpiration in plants, or respiration in animals.
PLS HELP!! I NEED THIS TODAY!!!
Which of the following is a stage of a host cell infection by a virus?
Select one:
a. viral genetic material injected into the host cell’s cytoplasm
b. replication of viral DNA using host mitochondria DNA
c. adaptation of viral receptors to infect most organism cells
d. virus attaches to host cell membrane using a capsule
Answers
Answer:
I think that the answer is B
a normal presentation of the fetus at the time of delivery would be:
Answers
A normal presentation of the fetus at the time of delivery is head-first, facing the mother's back. The presentation refers to the position of the baby's head and body in relation to the mother's pelvis.
The most common and safest presentation for delivery is the cephalic presentation, where the baby's head is down and facing the mother's back. This allows the smallest part of the baby, the head, to be delivered first, reducing the risk of complications during birth. Other presentations, such as breech (feet-first) or transverse (sideways), may require medical intervention or even a cesarean section delivery.
In a vertex presentation, the fetus is positioned head-down in the uterus with the top of its head (the vertex) entering the birth canal first. This is the most common and safest fetal presentation for vaginal delivery, as it allows for the smoothest passage through the birth canal.
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Match the appropriate traits with the corresponding category of land plants.
Traits:
- Have vascular tissue
- Produce seeds
- Produce spores
Categories:
a. Bryophytes
b. Gymnosperms
c. Angiosperms
Answers
- Have vascular tissue: Categories a. Bryophytes, b. Gymnosperms, c. Angiosperms
- Produce seeds: Categories b. Gymnosperms, c. Angiosperms
- Produce spores: Category a. Bryophytes
Match:
- Have vascular tissue: Categories b. Gymnosperms, c. Angiosperms
- Produce seeds: Categories b. Gymnosperms, c. Angiosperms
- Produce spores: Category a. Bryophytes
T/F : if a nematode is isolated from a soil sample by using a sieve, this is considered passive extraction.
Answers
True, isolating a nematode from a soil sample using a sieve is considered passive extraction.
Passive extraction refers to the process of separating organisms from a sample without the application of external force or disturbance. In the case of isolating nematodes from a soil sample, using a sieve is a form of passive extraction.
A sieve is a meshed device that allows the soil to pass through while retaining larger particles, including nematodes. When the soil sample is poured onto the sieve, the finer particles and organisms, such as nematodes, are separated from the larger soil particles. This process does not involve any active or forceful manipulation eugenol of the sample.
Passive extraction methods are commonly used in nematology to collect and study nematodes from various sources, including soil samples. They provide a non-destructive way to isolate nematodes for further analysis and identification. Other passive extraction techniques include the Baermann funnel method and flotation methods, which rely on the natural movement or settling of nematodes in liquid solutions.
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Molecules that are too large to be transported across the plasma membrane by a carrier protein are moved via:
Answers
Molecules that are too large to be transported across the plasma membrane by a carrier protein are moved via endocytosis.
Molecules that are too large to be transported across the plasma membrane by a carrier protein require an alternative mechanism for their movement. This mechanism is known as endocytosis. Endocytosis is a cellular process that involves the engulfment of extracellular material by the plasma membrane, forming a vesicle that brings the material into the cell.
The process of endocytosis occurs in three main forms: phagocytosis, pinocytosis, and receptor-mediated endocytosis. Phagocytosis is the process by which solid particles or large organisms are engulfed by the cell. Pinocytosis, on the other hand, involves the ingestion of fluid and dissolved solutes.
Receptor-mediated endocytosis is a more specific form of endocytosis, where molecules bind to specific receptors on the cell surface and are subsequently internalized.
In all three forms of endocytosis, the plasma membrane invaginates around the material to be internalized, forming a vesicle called an endosome.
The endosome then undergoes a series of intracellular trafficking events, which may involve fusion with other vesicles or compartments within the cell. Eventually, the contents of the endosome are either released into the cytoplasm or transported to specific organelles for further processing.
In summary, when molecules are too large to be transported across the plasma membrane by a carrier protein, they are moved via endocytosis, which involves the formation of vesicles that bring the material into the cell.
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5. Why isn't the radiometric dating of sedimentary rock exact? O O Because sedimentary rock only forms where there were ancient seas. Because sedimentary rock is constructed of many different layers. Because sedimentary rock is made up of weathered and eroded bits of igneous rock. Because sedimentary rock only contains carbon-14 and no other radioactive isotopes.
Answers
The radiometric dating of sedimentary rock is not exact due to the fact that sedimentary rock is made up of weathered and eroded bits of other rocks, including igneous rocks.
. Why isn't the radiometric dating of sedimentary rock exact?Radiometric dating relies on measuring the abundance of radioactive isotopes and their decay products within a rock sample. However, in the case of sedimentary rock, the minerals within the rock are typically not the original components but rather fragments from different sources. These fragments may have different ages and could have undergone various geological processes before being deposited as sedimentary rock.
As a result, the different minerals and fragments within the sedimentary rock may have different isotopic compositions and ages. When attempting to date a sedimentary rock using radiometric methods, it becomes challenging to accurately determine the initial composition of the minerals and the timing of their formation.
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Dr. Henderson teaches astronomy. She used to keep a model of Mars on the edge of her desk, but one day she decided to hang it up so that her students could see it better. She used a string to tie the model to a hook in the ceiling. A few days later, the string came loose and the model fell to the ground.
When was the most gravitational potential energy stored between the model and Earth? Assume that the model's mass did not change.
A.when the model was on the edge of Dr. Henderson's desk
B.when the model was hanging from the hook
C.when the model was about to hit the ground
Answers
Which of the following characteristics of gene expression allows bacteria to quickly change protein synthesis patterns in response to environmental changes?
Operons are activated in the presence of transcription factors.
mRNA have long lifespans, allowing the bacteria to use them many times for translation.
mRNA is stored for later use when it is needed later.
mRNAs that are produced are short-lived and degraded within a few minutes of being synthesized.
Answers
The characteristic of gene expression that allows bacteria to quickly change protein synthesis patterns in response to environmental changes is that the mRNAs that are produced are short-lived and degraded within a few minutes of being synthesized.
This means that bacteria can rapidly switch on or off the production of specific proteins depending on their needs. Unlike eukaryotic cells, bacterial mRNA have short lifespans, which allows the bacteria to quickly adapt to changes in the environment. The activation of operons in the presence of transcription factors or storage of mRNA for later use may be important in some cases, but it is the short lifespan of bacterial mRNA that is the key characteristic for rapid changes in protein synthesis patterns.
The characteristic of gene expression that allows bacteria to quickly change protein synthesis patterns in response to environmental changes is that mRNAs produced are short-lived and degraded within a few minutes of being synthesized. This characteristic enables rapid adjustment to new conditions, as bacteria can promptly stop the production of unneeded proteins and begin synthesizing ones that better suit the current environment. This is in contrast to mRNA having long lifespans or being stored for later use, which would hinder the bacteria's ability to adapt quickly. Additionally, operons' activation in the presence of transcription factors is a regulatory mechanism but does not directly explain the quick response to environmental changes.
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HELP!!! 50PTS!!! WILL BE MARKED AS BRAINLIEST!!!!
Which of the following is a consequence of populations with little genetic diversity?
Ability to withstand environmental pressures
Risk of decline or extinction
Protection against spread of disease
Increased reproductive success
Answers
Answer: 1 people would be more vulnerable to disease
2 human or anything wouldnt live as long.
or if this a b c d choice it would risk of decline or extinction
Explanation:
Which surgical approach used in extradural exploration/decompression involves making an incision overlying the intervertebral disc and cutting through epidermis, dermis, subcutaneous, fascia, and muscle tissue?.
Answers
The surgical approach used in extradural exploration/decompression that involves making this type of incision is the anterior approach.
What is a surgical approach?A surgical approach refers to any type of strategy used during a surgical medical intervention.
The surgical anterior approach is a strategy to achieve access to the anterior part of the hip.
In conclusion, the surgical approach used in extradural exploration/decompression that involves making this type of incision is the anterior approach.
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Ribosomes
o break down sugar for energy
o produce proteins for the cell
package and distribute proteins
Answers
Answer: B
Explanation:
produce proteins for the cell
Answer:
B. produce proteins for the cell
Explanation:
Just got it right on edge 2020