The correct option is D. It would tip the economic balance to make clean energy more profitable.
Tax equity: what is it?Project funding through the use of tax advantages and cash flow created by the project is provided by tax equity. Tax credits and deductions are included in these advantages. Equity taxes for solar energy plants would come from perks such.
What distinguishes investment credit from production credit?Production tax credits and investment tax credits differ significantly in that one continues to pay out depending on the quantity of a product generated, such as wind energy, while the other needs real money to be invested in order to benefit from the credit.
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Besides photosynthesis, what other broad process can be used to fix carbon?
Answer:
chemosynthesis
Explanation:
chemical reaction/oxidation reaction to produce ATP and NADPh!
hope this helps
CG Headaches- the vertebral artery is not one of the triggers or causes of the development of a CGH
- (True/False)
In CG Headaches the vertebral artery is not one of the triggers or causes of the development of a CGH. The statement is true.
Cervicogenic headache (CGH) is a type of headache that originates from the cervical spine or neck region.
The main mechanism that causes CGH is believed to be the convergence of sensory input from the upper cervical spine and the trigeminal nerve. This convergence leads to the referral of pain from the neck region to the head and face. The cervical spine contains various structures, including muscles, joints, and nerves, which can generate pain that is perceived in the head. Common triggers for CGH include neck trauma, poor posture, and degenerative changes in the cervical spine. Treatment for CGH typically involves physical therapy, medications, and lifestyle modifications.
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c. Provide reasoning using scientific principles that you have learned from this unit that will
connect the evidence to the claim.
(Note: Center your reasoning around the central dogma, as well as themes such as cause and effect, and
structure and function)
: The central dogma of molecular biology states that genetic information flows from DNA to RNA to proteins. In this unit, we have learned that the structure and function of proteins are determined by the sequence of nucleotides in the DNA.
This means that any changes in the DNA sequence can lead to changes in the structure and function of the proteins, which in turn can lead to changes in the phenotype of the organism.
In this way, the evidence of a mutation in the DNA can be connected to a change in the phenotype of the organism, as the mutation in the DNA is the cause of the change in the phenotype.
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What do you need to be cautious about with radioactive iodine therapy for TX of hypothyroidism?
When undergoing radioactive iodine therapy for the treatment of hypothyroidism, there are certain precautions that must be taken to ensure the safety of the patient. Firstly, patients must be carefully selected for the treatment, as it is not suitable for everyone.
Pregnant women and nursing mothers, for example, should not receive this therapy due to the potential harm it can cause to a developing fetus or a newborn.
Another important consideration is the potential risk of radiation exposure. Patients undergoing this therapy will become radioactive for a period of time and must take precautions to prevent exposure to others, particularly pregnant women and children. They should avoid close contact with others, particularly pregnant women and children, for several days following the treatment.
Finally, there may be side effects associated with radioactive iodine therapy. These can include nausea, vomiting, dry mouth, and changes in taste. Patients should be closely monitored for any adverse effects and should follow their doctor's instructions carefully to minimize the risk of complications.
Overall, while radioactive iodine therapy can be an effective treatment for hypothyroidism, it is important to approach it with caution and to take appropriate measures to ensure the safety and well-being of the patient.
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bundle of nerves that extends from brain down the back and the nerves carry electrical messages to and from this is called___
The bundle of nerves that extends from the brain down the back is called the spinal cord.
It is a long, thin, tubular structure made up of a series of small bones called vertebrae, which protect and support the spinal cord. The spinal cord is a vital part of the nervous system, as it carries electrical messages to and from the brain, allowing for the transmission of sensory information, as well as the coordination of motor movements.
Damage to the spinal cord can have severe consequences, such as paralysis or loss of sensation, making it essential to protect and care for this crucial part of the body.
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which of the following is true regarding the position and structure of the kidneys? drag and drop the choice labels into the corresponding boxes. adrenal glands lie directly above them. lie within the abdominal cavity. protected by a layer of fat.
The kidneys are positioned within the abdominal cavity, with the adrenal glands located directly above them. Additionally, a layer of fat protects the kidneys.
The correct statements regarding the position and structure of the kidneys are:
- Adrenal glands lie directly above them.
- They lie within the abdominal cavity.
- They are protected by a layer of fat.
To reiterate, the kidneys are positioned within the abdominal cavity, with the adrenal glands located directly above them. Additionally, a layer of fat protects the kidneys.
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12 - 3 RNA and Protein Synthesis: Key Concept - List the three main types of RNA.
The three main types of RNA are mRNA, rRNA, and tRNA.
All living cells contain ribonucleic acid, a nucleic acid that resembles DNA in structure. However, RNA is typically single-stranded, unlike DNA. Instead of the deoxyribose present in DNA, the backbone of an RNA molecule is made up of alternating phosphate groups and the sugar ribose.
The instructions are transported from the nucleus to the cytoplasm by messenger RNA (mRNA). All RNAs, including mRNA, are created in the nucleus.
Ribosomal RNA (rRNA) and transfer RNA (tRNA), the other two types of RNA, are involved in the process of organizing the amino acids to create the protein.
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Brainstorm several cellular processes for which energy of ATP is necessary.
Answer:
ATP (adenosine triphosphate) is a molecule that provides energy for a wide range of cellular processes. Here are some examples of cellular processes that require energy from ATP:
Synthesis of macromolecules: ATP is used to provide energy for the synthesis of macromolecules such as proteins, nucleic acids, and polysaccharides.Muscle contraction: ATP is needed for muscle contraction, which involves the sliding of myosin and actin filaments.Active transport: ATP is used to power the movement of ions and molecules across cell membranes against their concentration gradient, which is known as active transport.Cell signaling: ATP is involved in signal transduction pathways, which are responsible for transmitting signals within and between cells.Cell division: ATP is required for various stages of cell division, including the separation of chromosomes and the formation of new cell membranes.Maintenance of ion gradients: ATP is used to maintain ion gradients across cell membranes, which are necessary for a variety of cellular processes such as nerve signaling and muscle contraction.Biosynthesis of DNA and RNA: ATP is required for the biosynthesis of DNA and RNA, including the formation of nucleotide precursors.These are just a few examples of the many cellular processes that rely on the energy provided by ATP.
How long does OARRS data need to be kept?
Ohio pharmacists fill prescriptions for banned substances, and a database called OARRS (Ohio Automated Rx Reporting System) tracks these prescriptions.
What does the prescription monitoring programme in Ohio entail?OARRS can provide a prescriber or chemist with vital details about a patient's history of controlled substance prescriptions while also monitoring this data for any indications of misuse or diversion (i.e., directing medications towards unlawful use).
What time period does a pharmacy hold your prescription?The specific amount of time may vary depending on the pharmacy, but in general, most pharmacies will hold your prescription for two to 14 days before cancelling the order, with an average hold duration of seven to ten days. A family member or friend can pick up most medicines for you if you are unable to do so.
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what does Succinyl-CoA synthetase react?
Succinyl-CoA synthetase is an enzyme involved in the citric acid cycle, also known as the Krebs cycle or the tricarboxylic acid (TCA) cycle. This cycle is a crucial metabolic pathway that generates energy through the oxidation of acetyl-CoA derived from carbohydrates, fats, and proteins.
Succinyl-CoA synthetase catalyzes the conversion of succinyl-CoA to succinate. During this reaction, the high-energy thioester bond in succinyl-CoA is cleaved, releasing energy that is conserved through the synthesis of a molecule of guanosine triphosphate (GTP) or adenosine triphosphate (ATP), depending on the organism and tissue.
Succinyl-CoA + GDP (or ADP) + Pi → Succinate + GTP (or ATP) + CoA
Here, GDP and ADP represent guanosine diphosphate and adenosine diphosphate, respectively, while Pi stands for inorganic phosphate.
Succinyl-CoA synthetase plays a vital role in cellular respiration and energy production. By converting succinyl-CoA to succinate, it helps to regenerate CoA, which is then available for further participation in the TCA cycle. Moreover, the GTP or ATP produced in this reaction contributes to the cell's energy supply and can be utilized for various cellular processes.
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which of the following describes lipids?question 21 options:inorganic substances that are insoluble in waterorganic substances that are insoluble in fatinorganic substances that are insoluble in fatorganic substances that are insoluble in water
The following describes lipids is organic substances that are insoluble in water.
Lipids are a broad category of biomolecules that include fats, oils, waxes, steroids, and phospholipids. They are organic compounds composed of carbon, hydrogen, and oxygen atoms, and they are characterized by their insolubility in water. Lipids are important for energy storage, insulation, and cell membrane structure, among other functions.
Some properties of lipids include:
Insolubility in water: Lipids are hydrophobic, meaning they do not mix with water. They are, however, soluble in organic solvents like ether, chloroform, and benzene.Energy storage: Lipids are an important source of energy for the body. When metabolized, they provide more than twice as much energy as carbohydrates or proteins.Structural role: Lipids, particularly phospholipids, are a major component of cell membranes, which are critical for cell function.Thermal insulation: Fats and oils, which are types of lipids, help to insulate the body against heat loss.Protection and cushioning: Lipids, such as adipose tissue, provide protection and cushioning to internal organs.Hormone synthesis: Some lipids, such as cholesterol, are involved in the synthesis of hormones, which regulate various bodily functions.Learn more about the different kinds of lipids, at: https://brainly.com/question/28437379
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what would be the genotype of a light brown dog produced from a cross between a dark brown dog and a light red dog?
The genotype of a light brown dog produced from a cross between a dark brown dog and a light red dog either be Bb or bb.
To determine the genotype of a light brown dog produced from a cross between a dark brown dog and a light red dog, we need to understand the basics of genetics.
Genes are inherited from parents and are responsible for determining the physical characteristics of an individual. In this case, we can assume that the genes responsible for coat color are controlled by two alleles.
Let's use B to represent the dominant allele for the dark brown coat color and b for the recessive allele for the light red coat color.
The dark brown dog would have the genotype BB or Bb, while the light red dog would have the genotype bb. When these two dogs are crossed, their offspring would inherit one allele from each parent.
Therefore, the light brown dog would have the genotype Bb or bb.
If the light brown dog has the genotype Bb, it means it inherited one dominant allele from the dark brown parent and one recessive allele from the light red parent.
On the other hand, if the light brown dog has the genotype bb, it means it inherited two recessive alleles from both parents.
Therefore, the genotype of a light brown dog produced from a cross between a dark brown dog and a light red dog could either be Bb or bb.
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g what polysaccaride would not exhibit the following type of linkage for all or a major portion of its structure? a. glycogen b. amylose c. cellulose d. amylopectin
The polysaccharide that would not exhibit the following type of linkage for all or a major portion of its structure is: cellulose. The correct option is (c).
Cellulose is a polysaccharide that is composed of β-D-glucose monomers, which are linked together by β(1→4) glycosidic bonds. The β(1→4) linkage in cellulose makes it difficult for enzymes to break the bond and digest it.
As a result, cellulose cannot be used as an energy source for humans and most animals. Instead, it serves as a structural component in plant cell walls.
In contrast, glycogen, amylose, and amylopectin are all composed of α-D-glucose monomers, which are linked together by α(1→4) glycosidic bonds. The difference between these three polysaccharides lies in their branching patterns.
Glycogen and amylopectin are highly branched, while amylose is unbranched. Glycogen is the main storage form of glucose in animals, while starch (a mixture of amylose and amylopectin) is the main storage form of glucose in plants.
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After confirmation of pregnancy, a pregnant servicewoman shall be exempt from the physical readiness program during pregnancy and how many months after
A pregnant servicewoman shall be exempt from the physical readiness program during the entire pregnancy and for six months postpartum. This exemption is intended to protect the health of the mother and the unborn child, as well as to ensure a safe and healthy recovery.
During the pregnancy and postpartum period, the servicewoman should focus on her physical and psychological health, as well as the health of her unborn child. During this period, servicewomen should be given medical and emotional support to ensure their wellbeing.
They should also be given access to appropriate nutrition, rest, and relaxation to help them manage the physical and emotional demands of pregnancy and childbirth. With the proper care and support, servicewomen can return to their normal physical requirements after the postpartum period.
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what would cause a rightward shift of the oxygen dissociation curve?
A rightward shift of the oxygen dissociation curve is caused by a decrease in the oxygen-binding affinity of hemoglobin.
This can be caused by a decrease in pH, an increase in temperature, or an increase in the concentration of 2,3-diphosphoglycerate (2,3-DPG). A decrease in pH causes hydrogen ions to bind to hemoglobin, which reduces its affinity for oxygen.
An increase in temperature increases the kinetic energy of the molecules, which reduces their affinity for each other. An increase in 2,3-DPG competes with oxygen for binding sites on hemoglobin, reducing its oxygen-binding affinity.
All of these factors can cause a rightward shift of the oxygen dissociation curve, which reduces the amount of oxygen bound to hemoglobin and ultimately reduces the amount of oxygen that can be delivered to tissues.
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during what phase do centrioles in the centrosomes move to opposite ends of the cell?
The movement of the centrioles to opposite ends of the cell occurs during the M-phase of the cell cycle and is essential for the proper formation of the mitotic spindle and the separation of chromosomes during cell division.
The phase during which centrioles in the centrosomes move to opposite ends of the cell is called the mitotic phase or M-phase. This phase is part of the cell cycle and includes both mitosis and cytokinesis. During the mitotic phase, the cell undergoes a series of events that ultimately result in the formation of two identical daughter cells.The movement of the centrioles to opposite ends of the cell is a critical step in the formation of the mitotic spindle, which is necessary for the proper separation of chromosomes during cell division. The mitotic spindle is made up of microtubules that are organized and directed by the centrosomes, which contain the centrioles.During the early stages of the M-phase, the centrosomes begin to move towards opposite ends of the cell. Once they have reached their respective positions, the microtubules begin to assemble and attach to the chromosomes. The microtubules then pull the chromosomes apart towards the opposite poles of the cell.The final stage of the M-phase is cytokinesis, which involves the physical separation of the cell into two daughter cells. Cytokinesis is initiated by the formation of a contractile ring that constricts the cell membrane and separates the two daughter cells.In summary, the movement of the centrioles to opposite ends of the cell occurs during the M-phase of the cell cycle and is essential for the proper formation of the mitotic spindle and the separation of chromosomes during cell division.For more such question on cell cycle
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in the embryo; the mesonephros are the final set of kidneys that grow and function for life group of answer choices true false
True. The mesonephros, also known as the intermediate mesoderm, are the final set of kidneys that grow and function for life.
The mesothelium and the mesenchyme make up the two layers of tissue that make up this kidney, which is situated in the abdomen region of the embryo.
The organ's covering and capsule are made up of a thin, epithelial layer called the mesothelium.
The mesenchyme, a thick, tightly packed tissue that houses the renal tubules and glomeruli, lies beneath this layer. The mesonephros are in charge of making urine and filtering noxious chemicals from the body.
Additionally, it supports the body's ability to keep its acid-base and electrolyte balances in check. The formation of the gonads and the growth of the reproductive system are two additional functions of the mesonephros.
Complete Question:
In the embryo; the mesonephros are the final set of kidneys that grow and function for life
Group of answer choices
True
False
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What species of biting and sucking lice infest llamas? (Note different sources give different names!) How are they treated?
The species of biting and sucking lice that infest llamas are "Damalinia (Bovicola) macrocephaly'' and "Linognathus africanus" respectively, commonly known as "piojos" in Spanish.
They are treated with topical insecticides, such as permethrin or ivermectin, which can be applied directly to the llama's coat to eliminate lice and maintain proper hygiene to prevent re-infestation. Regular grooming and inspection of the animal can also help detect and control lice infestations early on.
Another option is to use a powder or dust-containing insecticide, which can be applied to the llama's coat and rubbed in thoroughly. In addition, it is important to regularly brush and inspect the llama's coat for signs of lice infestation and take steps to prevent the lice from spreading to other animals in the herd.
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Meiotic division of the secondary oocyte is completed
After zygote formation
At the time of fusion of a sperm with an ovum
Prior to ovulation
At the time of copulation
Answer: After zygote formation
Explanation:
Similarities or differences in Porifera and Cnidaria?!?
Although Porifera and Cnidaria differ from one another in a number of ways, they also have several things in common.
What distinguishes Cnidaria and Porifera from one another?Porifera and Cnidaria's structural distinctions should be compared. Cnidarians have tissues, however poriferans lack real tissues. Because of this distinction, cnidarians have a nerve net and muscle cells for motility, whereas poriferans do not.
What traits does Cnidaria Porifera possess?They have asymmetrical bodies. The body may be round, spherical, shaped like a vase, or shaped like a sac. They are diploblastic creatures because they have two layers: an outer dermal layer and an inner gastral layer. Between these two layers is a gelatinous, noncellular mesoglea.
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Monosynaptic reflex pathways consist of how many neurons
Monosynaptic reflex pathways consist of two neurons.
When a reflex arc consists of only two neurons, one sensory neuron, and one motor neuron, it is defined as monosynaptic. Monosynaptic refers to the presence of a single chemical synapse. Monosynaptic reflex Arc simple reflection that involves transferring input from the sensory neuron to the correct motor neuron through a single synapse in the spinal cord.
While, Polysynaptic reflexes involve multiple neurons, specifically a minimum of three types of neurons: a sensory neuron, one or more interneurons, and a motor neuron. These reflexes have a more complex structure compared to monosynaptic reflexes, which only include one sensory neuron and one motor neuron.
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where does blood entering a nephron first flow?
Blood enters the glomerulus, a collection of small blood veins, as it enters each nephron. Smaller molecules, wastes, and fluid—mostly water—can pass through the glomerulus' thin walls and into the tubule.
The glomerulus in the kidney is where the first stage of blood filtration by the kidneys takes place. Blood travels from the vascular pole into the glomerulus by the afferent arteriole, filters through the glomerular capillaries, and then leaves the glomerulus through the efferent arteriole.
Blood is filtered by the kidneys in three steps. Blood that flows through the glomerulus' capillary network is first filtered by the nephrons. Glomerular filtration is the process through which almost all solutes, with the exception of proteins, are filtered into the glomerulus. The filtrate is then collected by the renal tubules.
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write TRUE or FALSE: DNA does not have to break apart to be copied.
The given statement "DNA does not have to break apart to be copied" is false because DNA replication involves the breaking apart of the DNA double helix, and it is necessary for the synthesis of new complementary strands.
DNA replication requires the separation of the two strands of the DNA double helix, which involves breaking the hydrogen bonds between the base pairs. Once the strands are separated, each strand serves as a template for the synthesis of a new complementary strand by adding nucleotides in a specific order, forming two identical copies of the original DNA molecule. Therefore, breaking apart the DNA double helix is an essential step in DNA replication.
During replication, enzymes called helicases break apart the hydrogen bonds between the base pairs of the DNA double helix, which causes the two strands to separate. The separated strands then serve as templates for the synthesis of new complementary strands by the enzyme DNA polymerase, which adds nucleotides to the growing strands. Once the new strands have been synthesized, the original and the newly synthesized strands rewind to form a double helix structure.
Therefore, the given statement is false.
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when a pulmonary valve opens, blood is forced into which artery and which respiratory organ?
Answer: The right ventricle (RV) pumps oxygen-poor blood through the pulmonary valve
(PV) into the main pulmonary artery
(MPA). From there, the blood flows through the right and left pulmonary arteries into the lungs.
Explanation:
The lagging strand requires multiple primers because DNA polymerase can only copy strands in the _______ direction and can only add new nucleotides to the free, ___ end of a primer.
what are the two major hormones released by the posterior pituitary?
The two major hormones released by the posterior pituitary are oxytocin and vasopressin.
They also known as antidiuretic hormone (ADH). Oxytocin is primarily involved in childbirth and lactation. During labor, oxytocin stimulates uterine contractions to facilitate the delivery of the baby. After birth, oxytocin aids in milk ejection by triggering the contraction of mammary gland muscles when the baby suckles.
Vasopressin, or ADH, plays a crucial role in regulating the body's water balance. It is released in response to dehydration or low blood volume, and it acts on the kidneys to promote water reabsorption. This process increases the concentration of urine and reduces water loss, ultimately helping to maintain proper hydration and blood pressure levels.
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Absorption of lipids into body
- where are micelles absorbed?
- what happens to digested lipids next?
- What are they repackaged into?
- Where do they travel to after being repackaged?
- how are short-chain fatty acids abosorbed?
The microvilli that line the small intestine absorb the micelles that are created when lipids are emulsified there. The enterocytes, the cells lining the small intestine, get the digested lipids next.
What are they put back together with? After being repackaged, whither do they travel?The lipoprotein chylomicrons are created inside the enterocytes from the digested lipids. Chylomicrons bypass the liver at first and travel via the lymphatic system before entering the bloodstream through the thoracic duct.
Short-chain fatty acids are absorbed in what way?Both passive diffusion and transport proteins in the colon are capable of absorbing short-chain fatty acids.
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Question:
Regarding the absorption of lipids into the body, answer the following questions:
- Where are micelles absorbed?
- What happens to digested lipids next?
- What are they repackaged into?
- Where do they travel to after being repackaged?
- How are short-chain fatty acids absorbed?
Explain the different ways nekton maintain buoyancy in the ocean
The aquatic animals, Nekton maintain buoyancy in ocean with the help of swim bladder, lipids, creating hydrodynamic lift and their gas-filled structures.
Nekton are aquatic animals that can actively swim and maintain their position in the water column. They maintain buoyancy in the ocean through various methods, including:
1. Swim bladder: Many fish have a swim bladder, which is an air-filled sac that can be inflated or deflated to control buoyancy. By adjusting the volume of gas in the swim bladder, the fish can achieve neutral buoyancy and remain at a specific depth without expending energy.
2. Lipids: Some marine animals, like sharks and deep-sea fish, have a high concentration of lipids (fats) in their tissues. Lipids are lighter than water, providing buoyancy and helping these animals maintain their position in the water column.
3. Hydrodynamic lift: Nekton, such as marine mammals and sea turtles, can maintain buoyancy by creating hydrodynamic lift through their body shape and movement. By moving their fins, flippers, or tails, these animals can generate lift that counteracts gravity, allowing them to maintain a certain depth.
4. Gas-filled structures: Some invertebrates, like the Portuguese man o' war, have gas-filled structures (e.g., pneumatophores) that provide buoyancy. These structures can be adjusted to control the organism's position in the water column.
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Provide a logical reason why blue-green colored seaweed/coral cannot photosynthesize at water depths greater than 10m.
Blue and green light are therefore insufficient for cyanobacteria to support photosynthesis at depths of more than 10 meters.
Cyanobacteria, or blue-green colored seaweed or coral, has pigments called phycobilins that allow it to absorb light from the blue and green portions of the visible spectrum. The amount of blue and green light, however, is insufficient for these species to support photosynthesis at depths of more than 10 meters.
Light is absorbed and scattered by water molecules and other water-containing particles as it passes through water. Because of this, these species either depend on other photosynthetic pigments that can absorb light at longer wavelengths, such as red or yellow-green light, or they adjust to low light levels by raising their phycobilin content.
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12 - 4 Mutations: Key Concept What is a gene mutation? What is a chromosomal mutation?
The DNA sequence of a gene is altered to generate a different result, which is known as a genetic mutation. The chromosomal portions of the DNA strands can change, resulting in a chromosomal mutation.
An example of a chromosomal alteration in humans is the mutation that causes Down syndrome. The duplication mutation causes complications such as developmental delays. It occurs when the individual acquires a second copy of chromosome 21. Another word for it is trisomy.
From one parent to the next, the essential genetic component was passed on. DNA sequences make up genes, which are arranged sequentially at certain locations on chromosomes in the cell nucleus.
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