Answer:
Habitat Loss and Climate Crisis
Explanation:
Due to an increasing human population more and more area previously left untouched is being used to fulfill our demands. This leads to habitat loss for the bees and wasps.
Further, a change in climatic patterns might mean some species will find themselves at the right place in the wrong season.
Final answer:
The likely reasons for the extinction of bees and wasps include colony collapse disorder, the use of pesticides, and habitat loss and land use changes.
Explanation:
The likely reasons for the extinction of bees and wasps include:
Colony Collapse Disorder: Honeybee populations have been declining dramatically due to a syndrome called colony collapse disorder. The causes of this disorder are unclear, but possible culprits include the invasive varroa mite, the Nosema gut parasite, and the acute paralysis virus.Pesticides: The use of pesticides is thought to be another significant reason for the decline of bee populations. Pesticides can harm bees directly or indirectly by affecting their immune systems, navigation abilities, and reproductive success.Habitat Loss and Land Use Changes: Bees and other pollinators are highly sensitive to habitat loss and changes in the landscape. Intensive farming practices, urbanization, and deforestation can result in the loss of suitable habitats and food sources for bees and wasps.Which of the following describes research that that would be considered basic science?
I think it's A. Tell me if I'm wrong.
Please leave a thanks.
Answer:
A
Explanation: Basic research, or fundamental research, is focused on generating scientific knowledge that helps us to understand the nature of the world around us. Therefore, the aim of basic research is not to use that knowledge in specific applications. This would be the case of the investigation if someone tried to respond how the growth of a desert plant would be in conditions of excess water. This research would contribute to general knowledge without a concrete practical application.
An alien race known as the Wombatian Wilburys has the same genetic structure as humans (i.e., same genomes). Interestingly, the Wombatian Wilburys enjoy much of the same food as humans. Two autosomal genes are of interest:Chicken, with alleles: W = White-meat lover (dominant) and w = dark-meat lover (recessive).Potato, with alleles: M = Mashed potato lover (dominant) and m = baked potato lover (recessive).Consider a parental cross of a true-breeding White-meat loving, Mashed potato loving male with a true-breeding Dark-meat loving, Baked-potato loving female. The F1 females produced by this cross are mated with Dark-meat loving, Baked-potato loving males in a test cross. The progeny resulting from the test cross are listed below.Table 1. Counts of genotypes from F1 crossGenotype CountW-M 258W-m 259w-M 261w-m 259Are these genes linked? Recall, linked means that the distance is less than 50 centimorgans, tightly linked means that the distance is close to 0, and unlinked means that the distance is 50 centimorgans or more.A. No.B. They are on the same sex chromosome.C. The question cannot be determined from the information given.D. Yes.E. They are on the same autosome and tightly linked.
The genes for meat and potato preference in the Wombatian Wilburys are not linked, as evidenced by the roughly equal distribution of the four different genotypes in the test cross.
Explanation:Based on the genetically linked principle, when two genes are close to each other on the same chromosome, they are said to be linked, which means they are usually inherited together. However, the occurrence of the four different genotypes (W-M, W-m, w-M, w-m) in almost equal numbers in the test cross of the Wombatian Wilburys suggests that these two genes (for meat preference and potato preference) are likely to be unlinked, meaning they are not located close to each other on the same chromosome or they may even be located on different chromosomes. This is evidenced by the independent assortment and recombination of these genes leading to a roughly equal distribution of the four different genotypes.
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Life as we know it depends on the genetic code: a set of codons, each made up of three bases in a DNA sequence and corresponding mRNA sequence, that specifies which of the 20 amino acids will be added to the protein during translation. Imagine that a prokaryote-like organism has been discovered in the polar ice on Mars. Interestingly, these Martian organisms use the same DNA → RNA → protein system as life on Earth, except that there are only 2 bases (A and T) in the Martian DNA, and there are only 17 amino acids found in Martian proteins. Based on this information, what is the minimum size of a codon for these hypothetical Martian life-forms? View Available Hint(s) Based on this information, what is the minimum size of a codon for these hypothetical Martian life-forms? 2 bases 3 bases 4 bases 5 bases 6 bases The answer cannot be determined from the information provided.
Answer:
5 bases
Explanation:
If there are 17 amino acids and only 2 bases that can be combined in order to make a codon then:
for 4 bases [tex]4^{2}[/tex] is 16 and it is not enough combination for all 17 amino acids
for 5 bases [tex]5^{2}[/tex] is 25 combinations (meaning that more than one codon could code for the same amino acid).
Answer:
5
Explanation:
life as we know it awncer
What climate is characterized by a lack of warm summers with an average temperature of less than 10 °C, and covers over 20% of the Earth?
A) arid
B) polar
C) tropical
D) temperate
Answer:
The answer is polar! :)
Explanation:
Answer: B) polar
Explanation: The polar climate regions are characterized by a lack of warm summers but with varying winters. Every month a polar climate has an average temperature of less than 10 °C (50 °F). Regions with a polar climate cover more than 20% of the Earth's area.
Cells that support neurons structurally and functionally are called B NEUROGLIA
A. soma.
B. neuroglia.
C. axons.
D. dendrites.
Answer:
B. neuroglia.
Explanation:
Neuroglia, also called glial cells are cells that support neurons structurally and functionally.
There exists two broad classes of cells in the nervous system which are:
NeuronsGliaThe neurons process information while the glia support the neuron mechanically and metabolically.
In general, there are three main types of cells that make up the nervous system including the above two.
Glial cells, or neuroglia or simply glia, are the cells that support neurons structurally and functionally. They are considered to be supporting cells and many functions are directed at helping neurons complete their function for communication.
Explanation:Glial cells, or neuroglia or simply glia, are the cells that support neurons structurally and functionally. They are considered to be supporting cells and many functions are directed at helping neurons complete their function for communication. Glial cells include astrocytes, microglia, oligodendrocytes, and Schwann cells.
The molecules that make up living things are incredibly diverse due in part to the variety of possible carbon skeletons. Which of the following structural components can be found in carbon skeletons?
I. triple bonds
II. quadruple bonds
III. rings
IV. branches
I. triple bonds, III. rings and IV. branches
Answer: The answer would be III.
Explanation:
A doctor is trying to diagnose a patient with short stature. She plots the girls growth in red on the growth chart below to compare it to the typical growth rates, which are shown in black. Based on the data, which of following is the most likely diagnosis?
a) gigantism
b) an underactive pituitary gland
c) an overactive pituitary gland
d) insomnia
B, an underactive pituitary gland
which of the following inventors of the 1870s had a directing Major Impact on the prairie ecosystem
Answer:
The steel plow and barbed wire
Explanation:
It was in 1837 when John Deere, a blacksmith from Illinois invented a steel mouldboard plough that was strong enough to cut through the stubborn roots of the prairie grasses. This invention turned millions of acres of prairie land into fields for arable crops and grazing ground for huge herds of domesticated cattle. The starving Indians who were displaced resorted to slaughtering the bison in 1872 to 1874 that resulted in the decrease of its population from 7.5M animals to about 750 only.
Answer:
It’s D or C ( I hope this helps )
Which of the following correctly describes connective tissue
Answer:
There are no multiple choices
When constructing buildings in coastal areas, humans sometimes destroy sand dunes on the beaches. This activity
A.
has no effect on environmental conditions.
B.
is harmful because the dunes serve many important functions.
C.
is beneficial because the dunes harm wildlife.
D.
is beneficial because the dunes cause beach erosion.
Answer:
The answer to your question is...
B
Explanation:
basically i had this question and it said that this was right
Answer: Option B
Explanation:
While constructing the buildings in coastal areas, human beings sometimes destroy the sand dunes in the beaches. This is not a good indication and it is an invite to various kinds of problems as it serves many important functions.
Sand dunes are present at the shorelines and it has highly specialized plants and animals that can be endangered or highly specific.
They also protect the beach from erosion and prevents the water from entering into human space upto a certain extent.
One danger of excessive nitrogen levels in water is blank The greenhouse effect nitrogen fixational oxygenation eutrophication ?
Answer:
eutrophication
Answer:
Eutrophication
Explanation:
Nitrogen is one of the nutrients that support the growth of plants and algae. Presence of excess nitrogen in water would favor excessive growth of algae in the water.
This uncontrolled growth of algal population in water as supported by the presence of nitrogen is called eutrophication. The algal population consumes available oxygen leading to lack of oxygen for other aquatic animals such as fishes.
which of following describes a negative feedback loop?
a) when the heart rate is too high, the body sends hormones that continually increase the heart rate higher.
b) When a pregnant women is in labor, the body sends hormones that increase the intensity of contractions, which then increase the secrection of the same hormones.
c) when the blood sugar is to low, the body sends hormones the raise blood sugar until it reaches a typical level and hormones secrection slows.
d) when a person is jogging, the body sends hormones that continually decrease the rate of oxygen supply to the legs.
Answer:
c) when the blood sugar is to low, the body sends hormones the raise blood sugar until it reaches a typical level and hormones secretion slows.
Explanation:
The function of a negative feedback loop is to reduce the output of a system. In the endocrine system, negative feedback stops or decreases the production of a hormone that is no longer needed.This is the case with the hormones that regulates the level of glucose in the body. When the blood sugar level is low, the pancreas is triggered to secrete the hormone glucagon which helps raise the level of blood sugar, until a certain level and the secretion of the hormone slows.does the following statement describe a function of DNA, a function of RNA, a function of both DNA and RNA, or a function of neither DNA or RNA ? It takes the message for amino acid order for proteins to the cytoplasm, where the protein will be built; it serves as an enzyme to speed up many kinds of biochemical reactions in the cell.
A. DNA
B. RNA
C.both DNA and RNA
D. neither DNA nor RNA
HELP ME
Answer:
B. RNA
Explanation:
RNA is a type of nucleic acid that carries the information of amino acid sequence from the genes where proteins are produced from the ribosomes.The process of gene expression involves transcription, where the DNA undergoes transcription to generate messenger RNA which carries the information for protein synthesis.The mRNA then undergoes translation in the cytoplasm where the genetic information of amino acid sequence from the genes is used to make proteins in the ribosomes.What Is Another Name For Lane D In The Diagram?
C.) A Positive Control (Apex) (^∇^)
Answer:
C
Explanation:
In an experiment, 'Lane D' could refer to a sample lane, a control lane, or a lane for a specific substance. It could potentially be a positive or negative control depending on the expected results and the experiment's setup.
Explanation:Since there isn't an image or diagram included with your question, I'll give a general explanation. Typically, in a laboratory experiment particularly in molecular biology, lanes in a gel electrophoresis diagram are often designated by letters (A, B, C, D, etc.). Lane D could be a sample lane, a control lane, or it could be designated for a specific substance depending on the experiment's setup.
In some cases, Lane D, could be referred to as a positive control or even a negative control, depending on the experiment. If the substance in Lane D is expected to produce a specific, known result, it would be a positive control; if it is expected to produce no result or a baseline result, then it would be a negative control.
Please provide additional context or refer to your lab instructions or experiment setup for a more accurate designation of 'Lane D' in your specific case.
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What is an advantage of a degenerate genetic code?
Mutations are more likely to alter proteins, increasing the rate of evolution.
Mutations are less likely to alter protein sequence, decreasing the chances that a mutation will have deleterious consequences to the organism.
It increases the number of different proteins that can be coded by each gene.
It decreases the total number of tRNAs that have to be made.
Answer:
The first one
Explanation:
This is because there are no base triplets that are unused in the cell. All of the bases are used since more than one triplet of DNA bases are coded for amino acids
An advantage of a degenerate genetic code is that 'mutations are less likely to alter protein sequence, decreasing the chances that a mutation will have deleterious consequences to the organism'.
The genetic code refers to the fact that the linear order of nucleotides in DNA and also in mRNA determines the order in which amino acids are added to the protein during translation.The genetic code is said to be redundant or degenerate because different triplets of nucleotides or codons in the mRNA can encode the same amino acid.For example, leucine can be encoded by six different synonym codons (i.e., CTT, CTC, CTA, CTG, TTA, and TTG).In consequence, mutations that generate synonym codons don't have a direct effect on the synthesized protein.In conclusion, an advantage of a degenerate genetic code is that 'mutations are less likely to alter protein sequence, decreasing the chances that a mutation will have deleterious consequences to the organism'.
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Between 1940 and 1970 most scientists were already concerned about global warming.
T/F?
Answer
Hi,
FALSE
Explanation
Before 1970, most people started to see the effects of Climate changes such as increasing warming up of the United States and the North Atlantic region. Scientists during this period only suggested that these changes were due to natural cycle with unidentified reasons. After 1970s, scientists developed strong beliefs that greenhouse gases were the cause of increasing global temperature. In 1988, scientist initiated meetings and research on global scale as a positive move to cut greenhouse gas emissions.
Best Wishes!
Gaucher disease is the most common of lipid storage diseases in humans. It is caused by a deficiency of an enzyme necessary for lipid metabolism. This leads to a collection of fatty material in organs of the body including the spleen, liver, kidneys, lungs, brain, and bone marrow. Using your knowledge of the structure of eukaryotic cells, identify the statement below that best explains how internal membranes and the organelles of cells would be involved in Gaucher disease. Gaucher disease is the most common of lipid storage diseases in humans. It is caused by a deficiency of an enzyme necessary for lipid metabolism. This leads to a collection of fatty material in organs of the body including the spleen, liver, kidneys, lungs, brain, and bone marrow. Using your knowledge of the structure of eukaryotic cells, identify the statement below that best explains how internal membranes and the organelles of cells would be involved in Gaucher disease. The lysosomes lack sufficient amounts of enzymes necessary for the metabolism of lipids. The rough endoplasmic reticulum contains too many ribosomes which results in an overproduction of the enzyme involved in carbohydrate catalysis. The Golgi apparatus produces vesicles with faulty membranes that leak their contents into the cytoplasm of the cell. The mitochondria are most likely defective and do not produce adequate amounts of ATP needed for cellular respiration.
Answer:
The lysosomes lack sufficient amounts of enzymes necessary for the metabolism of lipids.
Explanation:
Lysosomes are a membrane-bound organelles with acidic interior that enables the function of hydrolytic enzymes. So, the main role of lysosomes is degradation of macromolecules (such as lipids). Low pH (about 5) is suitable for the action of enzymes involved in hydrolysis (hydrolases) and there are about 50 of them inside the lysosome. Beside macromolecules, lysosomes degrade organelles, but also can digest themselves via autophagy (e.g. when cell is under stress).
Lysosomes are also involved in plasma membrane repair, defend against pathogens (macrophages), cell signaling, metabolism etc.
Gaucher disease, due to a deficiency in a specific enzyme, leads to impaired lipid metabolism. This results in fatty material accumulating in organs and within cells. The disease primarily affects organelles such as lysosomes and the endoplasmic reticulum but impacts the overall functioning of the cell.
Explanation:In Gaucher disease, the inability to metabolize lipids due to a deficiency in a particular enzyme leads to the accumulation of fatty material in various organs. Key to understanding the effect of this disease on eukaryotic cells is the structure of the cell and its organelles, specifically the lysosomes and endoplasmic reticulum. Lysosomes, which contain enzymes for digesting cellular components and foreign material, fail to break down lipids, resulting in their buildup within the cell.
The endoplasmic reticulum (ER) plays a significant role in lipid synthesis. Therefore, a breakdown in this process could trigger the accumulation of unprocessed lipids, impacting the overall functioning of the cell. It's significant to note that while the lysosomes and ER are centrally implicated, the overall interconnected dependency of the cell on its organelles implies that all organelles are affected, to various degrees, due to enzymatic deficiency. For example, the Golgi apparatus is involved in lipid modification and transportation; a metabolic pathway is disrupted by the disease.
The disease's impact can further disrupt the function of the mitochondria, affecting ATP production necessary for cellular respiration and metabolism. Therefore, while primarily a failure of lipid metabolism due to enzymatic deficiency, Gaucher disease's impact is felt across an array of organelle functions, disrupting the normal functioning of eukaryotic cells.
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1. What are some of the threats to dogfish sharks? 2. What abnormalities, if any, were detected in the necropsy results? How may these factors have contributed to the shark’s death? 3. Describe the stomach contents of the shark. What do the stomach contents indicate regarding the dogfish shark’s eating habits? 4. What do you predict was the main cause of death? Discuss what other factors may have contributed to the shark’s death. 5. Could this have been prevented? What can be done to help preserve this species?
Answer:
1. What are some of the threats to dogfish sharks?
Direct threats such as fishing can lead to the depletion of dogfish sharks as well as indirect threats like water pollution, habitat changes, damage and loss due to coastal development. Like other shark species, they have low reproduction rates and they grow slowly and mature late.
2. What abnormalities, if any, were detected in the necropsy results? How may these factors have contributed to the shark’s death?
There was an abnormality that was detected in the necropsy revealing elevated levels of methyl mercury in the shark’s liver. In addition, there was also the presence of plastic in the stomach of the fish. Both of these factors contributed to the shark’s death.
3. Describe the stomach contents of the shark. What do the stomach contents indicate regarding the dogfish shark’s eating habits?
Inside the shark stomach were found the normal fish and shrimp which is part of the shark's diet. However, a ball of plastic was also found in it. This is an indication of pollution in the shark's environment, a thing that sharks unknowingly take in foreign objects that float along with the fish.
4. What do you predict was the main cause of death? Discuss what other factors may have contributed to the shark’s death.
The main cause of the death of the dogfish shark is pollution of its habitat. The lack of clean water and lack of oxygen have greatly affected the sharks organs and health. The presence of waste materials such as plastic being ingested by the fish is in itself a killer.
5. Could this have been prevented? What can be done to help preserve this species?
Yes, the death and depletion of sharks can be prevented. By making sure that the ecosystem is free from pollution and clear of waste materials, humans as custodians of the planet earth are responsible and accountable to safeguard every living thing.
There are two types of threat to dogfish sharks i.e. direct threats and indirect threats.
Threats to dogfish sharkDirect threats to dogfish such as fishing can lead to the reduce the population of dogfish sharks whereas indirect threats such as water pollution, habitat changes, damage and loss due to coastal development.
Abnormality was detected in the necropsy that shows high levels of methyl mercury in the shark’s liver and there was also the presence of plastic in the stomach of the fish which leads to the shark’s death.
Inside the shark stomach were found the fish and shrimp which is the food of the shark while on the other hand, a ball of plastic was also found in the stomach which indicates pollution in the shark's environment.
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A patient comes to the doctor complaining of dry skin and difficulty with night vision. The patient eats mainly meat, potatoes, and rice, with very few other vegetables and no fruit or dairy. What vitamin deficiency might the doctor suspect?
A. A
B. B2
C. B6
D. C
E. E
A. Vitamin A deficiency can cause dry skin and night vision problems
Answer:
A. Vitamin A (Plato Answer)
Explanation:
You scoop up a water sample from a local pond nearby, because you are curious about the possible microbes that might live there. After looking at several slides that held drops of the sample, you noticed two different kinds of cells: One kind was very small and had no separate internal structures; the other kind was much larger, and it contained several kinds of internal structures that were physically different from each other. Please name each cell and briefly describe their overall similarities and differences.
Answer:
The cell which is small and with no internal structures is most likely prokaryotic cell, while the larger cell with internal structures is eukaryotic cell.
Explanation:
There are two main types of cells among living organisms:
Eukaryotic cell (plants, animals, fungi) which is more compound, conntains nucleus with genetic material in it, membrane-bound organelles (mitochondria, Golgi apparatus, lysosomes etc). Because of their complex structure, the process within such cells are often more comlex then those in prokaryotes. Eukaryotic organisms are usually multicellularProkaryotic cell is simple cell found in Archea and Bacteria kingdom. It doesn't have nucleus neither membrane-bound organelles. Genetic material of these cell is located within the cytoplasm together with proteins and metabolites. First living cell was prokaryotic cell. Organisms that are prokaryotic are usually unicellular.The very small cells with no separate internal structures are likely prokaryotic cells while the larger cells with distinct internal structures are likely eukaryotic cells. Both share common structures but differ in size and complexity.
Explanation:The two types of cells you noticed in your water sample from the pond likely represent prokaryotic and eukaryotic cells. Prokaryotic cells are generally smaller and do not contain separatemembrane-bound internal structures. They have a simple structure with nucleic acids (DNA and RNA) floating freely within the cell. Prokaryotes like bacteria are examples of organisms that possess this cell type.
On the other hand eukaryotic cells are typically larger and contain several kinds of internal structures, called organelles, that are physically separate from each other. The DNA of eukaryotic cells is contained within a nucleus. Examples of eukaryotic cells can be found in organisms like plants and animals.
Both cell types share common structures like a plasma membrane, cytoplasm, genetic material (nucleic acids), and ribosomes. However, their size and the presence or absence of membrane-bound organelles differentiate them significantly.
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A cell that develop to form the outer lining of an animal‘s body make up the
Answer:
it is the ectoderm
Explanation:
Cinder cone volcanoes have alternating layers of ejected material.
Please select the best answer from the choices provided
T
F
Cinder cone volcanoes have alternating layers of ejected material.
Answer:
TrueFinal answer:
Cinder cone volcanoes do not have alternating layers of ejected material; this statement is false. They are built primarily from pyroclastics, while composite volcanoes have the characteristic alternating layers of lava flows and pyroclastics.
Explanation:
The statement that cinder cone volcanoes have alternating layers of ejected material is false. Cinder cones are typically built from pyroclastic material, which includes cinders, volcanic ash, and volcanic bombs that have been ejected during explosive volcanic eruptions. These cinders accumulate around the volcanic vent, forming a cone with steep sides. Unlike composite volcanoes (also known as stratovolcanoes) which indeed have alternating layers of lava flows and pyroclastics, cinder cone volcanoes are not characterized by such layering.
In contrast, composite volcanoes have steep-sided cones built from alternating flows of lava and pyroclastics. Shield volcanoes, on the other hand, have broad, low-angled slopes and are built layer on layer of fluid lava.
which energy source is a result of tiny sea creatures being compressed over millions of years?
Answer:
Oil
Explanation:
Dead plankton falls to the bottom of the ocean and over centuries becomes oil from high pressure and heat
Answer:
The correct answer is crude oil.
Explanation:
The dead plankton settles at the bottom of the seas and oceans and because of the accumulating layers of sediments gets compressed over millions of years, resulting in the formation of crude oil. This takes place due to heat and high pressure. The extreme pressure and the heat is the source of energy, which leads to compression of tiny sea creatures and results in the formation of natural gas and oil.
A scientist wants to change the DNA of a sexually reproducing organism and have the new DNA present in every cell of the organism. In order to do this after fertilization, she would change the DNA in which of the following?
testes of the father
placenta
zygote
ovaries of the mother
Answer:
the correct answer is zygote
Answer:
C ) zygote
Explanation:
I just did a test.
{Hope this helps}
Which of the following statements is TRUE regarding CO2 in the mammalian bloodstream? In the mammalian bloodstream, CO2 is much less soluble than O2. CO2 is mainly transported through the mammalian bloodstream in the form of bicarbonate ions or carbonic acid. Unlike oxygen, CO2 is transported through the mammalian bloodstream by myoglobin. All CO2 is transported through the mammalian bloodstream as a dissolved gas, and is carried directly in the plasma. Like oxygen, CO2 is transported through the mammalian bloodstream via hemoglobin; however, CO2 binds to hemoglobin at β subunits rather than heme groups.
Answer:
The correct option is: CO2 IS MAINLY TRANSPORTED THROUGH THE MAMMALIAN BLOODSTREAM IN FORM OF BICARBONATE ION OR CARBONIC ACID.
Explanation:
Carbon dioxide is eliminated from the human body via three different methods. The first method of elimination is direct dissolution in the blood: in this case, carbon dioxide dissolves in the blood and is excreted via the lungs. About 7% of all carbon dioxide are eliminated through this method.
The second method involves the binding of carbon dioxide to hemoglobin. This binding is reversible and the carbon dioxide can easily dissociate from the hemoglobin in order to be excreted in the lungs. About 10% of carbon dioxide are eliminated from the body by this method.
The third method of carbon dioxide elimination involves the formation of bicarbonates ions and carbonic acid. Majority of the carbon dioxide in the body ( about 85%) are eliminated from the body through this method.
Can anyone please help me on this at least some
Answer:
119. Pollution
120. Greenhouse Effect
121. Chlorofluorocarbons (CDFs)
122. Acid rain
123. ?
124. Habitat (maybe)
125. Bioaccumulation (maybe)
Explanation:
Which Statement Is The Best Summary Of The Model?
Answer:
light energy is converted into stored chemical energy
Explanation:
Light energy is converted into stored chemical energy in plants, Option B should be the right statement that summarizes the model.
What is a chloroplast?Chloroplast is a plant cell organelle that plays a major role in photosynthesis. It converts light energy into chemical energy which is responsible for the plant life on earth.
The image represents the structure of the chloroplast.Chloroplast consists of the inner membrane, outer membrane, stroma, granum, etcLight reactions of the cell take place in the thylakoid discs of the chloroplast.The stack of these thylakoid discs is called a granum.Calvin cycle also takes place in the chloroplast.Chloroplast is not present in animal cells and it serves as a major difference between plant cells and animal cells.Hence, Option B is the right answer.
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Which of the following processes breaks down glucose?
A:)Excretion
B:)Photosynthesis
C:)Reproduction
D:)Respiration
Answer:
The correct answer is option D:) "Respiration".
Explanation:
In Biology, respiration is defined as the way a cell or an organism obtains energy by combining oxygen and glucose in a biochemical process that results in the release of carbon dioxide, water and adenosine triphosphate (ATP, the molecule that carries energy for almost any cellular process). These molecules are obtained by the gradually broken down of glucose, having the overall chemical equation of C6H12O6 + 6O2 → 6CO2 + 6H2O (glucose + oxygen -> carbon dioxide + water)
The process that breaks down glucose is respiration.
Which process breaks down glucose?
Glucose is a molecule that stores energy, and during respiration, it is broken down in a series of chemical reactions to release energy. This energy is then utilized by cells for various metabolic processes, such as growth, movement, and maintaining essential functions.
Option A, excretion, refers to the elimination of waste products from the body and is not directly involved in breaking down glucose.
Option B, photosynthesis, is the process by which plants and some other organisms convert light energy into chemical energy, producing glucose from carbon dioxide and water. It is the opposite process of glucose breakdown.
Option C, reproduction, refers to the process of producing offspring and is not directly related to breaking down glucose.
Therefore, the correct answer is D) Respiration.
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Which of the following is/are true regarding the way aminoacyl-tRNA synthetases ensure the fidelity of translation? They can sense the improper fit of an amino acid and hydrolyze the intermediate prior to attachment to the tRNA. There is a short window of opportunity for the enzyme to hydrolyze the amino acid-tRNA bond before it is released for translation. The tRNA has a polynucleotide domain that is responsible for proofreading. Aminoacyl-tRNA synthetases do not proofread.
Answer: evidence supporting the therory slowly accumulated
Explanation:
The answer is B
Answer:
They can sense the improper fit of an amino acid and hydrolyze the intermediate prior to attachment to the tRNA. There is a short window of opportunity for the enzyme to hydrolyze the amino acid-tRNA bond before it is released for translation.Explanation:
An aminoacyl tRNA synthetase (aaRS) is a very important exhima during protein synthesis that is made through translation. This enzyme is an important factor not only for regulating the translation process, but also for the efficiency of a newly formed protein. This is because this enzyme is responsible for maintaining the fidelity of the genetic code during protein formation. This is done by detecting improper adjustment of an amino acid and hydrolyzing the intermediate prior to tRNA binding. furthermore, this enzyme may hydrolyze the amino acid-tRNA bond before being released for translation.
Colorblindness is a sex-linked trait. A mother with normal vision and a man who is colorblind have a colorblind daughter. What statement MUST be true about the parents?
Answer:
The child must have a father who is colorblind and a mother who is a carrier/ is colorblind.
Explanation:
The genetic code for color blindness is carried upon the x chromosome. This means that a male- who has only one X chromosome- only needs their mother to be a carrier to be colorblind. Women on the other hand, need two to be color blind, as the faulty x chromosome can be weeded out by the other.
Therefore, the father, in order to pass on the colorblindness, must be colorblind himself, whereas the mother only needs to be a carrier (or can be completely color blind herself).
Answer:
A) The mother is a heterozygous carrier
Explanation:
A) The mother is a heterozygous carrier. - only one that makes sense
B) The father is a heterozygous carrier. - he is double recessive
C) The mother cannot have the colorblind gene. - that is possible
D) The mother is homozygous dominant for normal vision. - that would mean the 100% of the offspring would be normal