The part of the brain that coordinates thinking and planning is the cerebral cortex.
What is the brain?The brain is the part of the body that takes care of the consciousness and coordinates the overall activities of the individuals. Let us note that whenever a person is conscious, there is the part of the brain that is responsible for that.
In the area of thinking and planning, the cerebral cortex takes charge of this activities and helps a person to be able to coordinate the plans that he or she may have intelligently.
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Which question can a student ask to determine whether a resource is renewable or nonrenewable?(1 point)
Is the resource available naturally?
Is the resource available naturally?
Is there a practical use for the resource?
Is there a practical use for the resource?
Is the resource available in large quantities?
Is the resource available in large quantities?
Is there a limited supply of the resource?
renewable resources are those sources that cannot be depleted and are able to supply a continuous source of clean energy. they are mostly natural because they are present in an unlimited amount. example: for solar energy, sunlight is present in an unlimited amount which is naturally present as well as in large quantities.
unrenewable resources are those which will run out or will not be replenished in our lifetimes. example: fossil fuels which need over more than hundreds of years. the nonrenewable resource can say it is a limited supply of the resource which are not available in large quantities like renewable resources.
nerve cells which receive stimuli and transmit action potentials
The nerve cells which receive stimuli and transmit action potentials are referred to as neurons. The neurons and glia make up the nervous system. Neurons are specialized cells that can send and receive chemical and electrical impulses. Similar to an electrical wire, a neuron sends signals from one location to another.
Upon being stimulated, nerve cells send action potentials to other neurons or effector organs. They are arranged into intricate networks that carry out nervous system operations. Action potentials, a type of electrical event, and chemical neurotransmitters are two ways that neurons can communicate with one another. An action potential leads a neuron to release a chemical neurotransmitter at the connection between the two neurons. Afferent or sensory neurons gather stimuli from the skin, eyes, ears, and other external and internal organ receptors as well as pain and other receptors.
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Nerve cells that receive stimuli and transmit action potentials are Neurons. they use chemical and electrical signals to communicate.
Neurons, which are specialized cells that are capable of receiving and transmitting chemical or electrical signals, and glia, which are cells that support the neurons, make up the nervous system. An electrical wire can be compared to a neuron: It conveys information from one location to another.
Action potentials are the electrical signals that carry information from one neuron to another; Neurotransmitters are the chemical signals that move information from one neuron to another.
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sugars, starches, and dietary fibers are examples of . a. proteins b. vitamins c. carbohydrates d. minerals
Answer:
Sugars, starches, and dietary fibers are examples of C. Carbohydrates.
If the food coloring traveled 5 millimeters in 5 minutes, what is the diffusion rate in millimeters per minute?
The diffusion rate in millimeters per minute would be 1 millimeter per minute (5 millimeters / 5 minutes = 1 millimeter per minute).
The diffusion rate is a proportion of how rapidly a substance moves from an area of higher concentration to an area of lower concentration.
For the given example, the food coloring is moving a distance of 5 millimeters in a time span of 5 minutes. To calculate the diffusion rate, we partition the distance went when it took to travel that distance.
So in this model:
5 millimeters (distance)/5 minutes (time) = 1 millimeter each moment (diffusion rate).
This intends that in one moment, the food coloring voyages a distance of 1 millimeter. The unit "millimeter each minute" can likewise be composed as "mm/min"
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The diffusion rate in millimeters per minute is 1 millimeter per minute. Molecules disperse from areas of high concentration to areas of lower concentration through the process of diffusion.
This process is driven by the random motion of the molecules in a solution. In this case, the food coloring is moving from a region of higher concentration (where it was initially placed) to a region of lower concentration (the surrounding solution).
By dividing the distance traveled (5 millimeters) by the time elapsed (5 minutes), we can calculate the diffusion rate in millimeters per minute. In this case, the diffusion rate is 1 millimeter per minute.
This is a relatively slow rate of diffusion, because the molecules of the food coloring are relatively large compared to the surrounding molecules, which makes it more difficult for them to move.
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hi i really need help on this
Answer: Help is Here!
Explanation:
Once every 24 hours Earth fully with us on it. When we are on the side of Earth that is facing the Sun, we have daylight from the sun. As Earth continues its spin, we are moved away from our Sun, and we have night time because there is no more light from the sun (on our side).
what drove darwin to finally publish his ideas nearly two decades after he began his background research?
Answer: He feared that someone else would publish the same theory before him.
Based on observational evidence, variations in the color of flamingos appears to be determined by their diet, and not their genes. Describe the steps of an investigation to provide evidence to support or refute this hypothesis.
Variations in the color of flamingos appear to be determined by their diet, and not their genes, which may be described in an investigation that provides evidence to support this hypothesis in which we see that color in offspring of flamingos changes in regard to parents while it is associated with food habits.
What is an observational study?An observational study is a type of experimental procedure in which field observations are used to confirm or reject our working hypothesis.
Therefore, with this data, we can see that observational studies are appropriate to confirm data in the field such as the reason for the color of the flamingo in this case.
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doctors focused on the point at which uterine contractions first become regular are most likely interested in which stage of labor?
Encouragement to take a deep breath at the start of a contraction, hold it, and bear down throughout the contraction is a typical strategy used during the second stage of labor (this is known as directed pushing).
The first stage begins when labor starts and finishes when the cervical cavity has fully dilated and effaced. The delivery of the fetus marks the conclusion of the second stage, which begins with complete cervical dilatation. The "pushing" stage is another name for the second stage.
Stage 2: Labor and Delivery – The mother pushes, the baby crowns, and then the infant emerges into the world. Stage 3: Placenta and Umbilical Cord Expulsion - As the placenta and umbilical cord are removed, contractions persist.
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Doctors focused on the point at which uterine contractions first become regular are most likely interested in the first stage of labor.
Contractions can be defined as the tightening or shortening of muscles in order to mediate their movement. All the muscles are capable of contracting in an individual's body. Some muscles like cardiac and smooth muscles can contract on their own. While the skeletal muscles contract as we want to move them.
Labor is defined as the process of contractions of the uterus to dilates the cervix to give birth to a child. The process of labor has three stages. The first stage is the one where the dilations or contractions happen frequently.
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what specific differences do you think you will see between the animal and plant cells using the compound microscope?
Answer: Plant cells have a cell wall, as well as a cell membrane. In plants, the cell wall surrounds the cell membrane. This gives the plant cell its unique rectangular shape. Animal cells simply have a cell membrane, but no cell wall.
Explanation:
Plant cells:
1. Have a cellulose cell wall outside the cell
membrane.
2. Have a cell membrane.
3. Have cytoplasm.
4. Have a nucleus.
5. Often have chloroplasts containing
chlorophyll.
6. Have prominent one or more vacuoles.
7. Often regular in shape.
Animal cells:
1. Have no cell wall.
2. Have no chloroplasts.
3. Have only small vacuoles.
4. Often irregular in shape.
5. Do not contain plastids.
6. Have complex and prominent Golgi
apparatus.
7. Cytoplasm fills almost the entire cell.
Anatomy & Physiology
Very good at ___________________________________ (fixing itself). i.e., sunburn, skinned knee.
Anatomy and Physiology are very good at healing and repairing of damaged tissues such as sunburn and skinned knees.
What is skinned knees?The most common causes of scraped knees are falling or rubbing your knee on a rough surface. The majority of the time, it's not a serious injury and can be treated at home. To prevent an infected scraped knee, there are certain precautions to follow.
Most knee skinnings recover in one to two weeks. However, get in touch with your family doctor if you spot any infection-related symptoms. According to HealthyChildren.org, if the wound site expands, turns red or hot, develops drainage, or has an unpleasant odor, it is best to get medical assistance.
Hence, healing and repairing is the correct option to fill.
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What is the book "microbiology with diseases by body system 5th edition" discussing?
"Microbiology with Diseases by Body System, 5th Edition" is likely a textbook that is used in a course on microbiology, with an emphasis on the relationship between microorganisms and human disease.
The book likely covers the basic biology of microorganisms, including bacteria, viruses, fungi, and protozoa, and their role in causing infections in different body systems. The text may be organized by body system, with chapters devoted to specific diseases caused by microorganisms in the skin, respiratory, cardiovascular, digestive, urinary and reproductive systems, as well as the nervous system. The book is likely to include information on how microorganisms cause infections, how they are transmitted, and how they are diagnosed, treated, and prevented.
The fifth edition of the book probably includes updates and new information on recent advances in the field of microbiology, such as new organisms, new diseases, new diagnostic methods, and new treatments. It may also include new information on the epidemiology of diseases, the mechanism of pathogenesis, and the host response to infection. It may also have new sections on emerging and re-emerging diseases, the role of microbes in chronic diseases, and the impact of antibiotics on human health and the environment. Additionally, the book may include new pedagogical tools such as case studies, problem-based learning, or interactive multimedia that will help students to understand the material and apply it to real-world scenarios.
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which are regarded as the capacitance vessels because they expand easily to accommodate an increased volume of blood?
The capacitance vessels are venous system which has the power to accommodate an increased volume of blood.
The term "venous system" describes the network of veins in your body as well as the connections those veins make with other blood arteries and organs. There are two primary circuits or sections to your venous system. The pulmonary circuit and the systemic circuit are these. Blood must flow through veins, arteries, and capillaries in order for each circuit to function.
Three layers of tissues and fibres make up each vein:
Your vein's tunica adventitia (outer layer) provides it shape and structure.
Smooth muscle cells in the tunica medium (middle layer) enable your vein to enlarge or contract as blood flows through it.
Blood can flow smoothly through your vein thanks to the smooth endothelium lining of the tunica intima (inner layer).
During respiration, the skeletal-muscle pump and the thoracic breathing pump work together to help create venous pressure and return blood to the heart. Mean arterial pressure refers to the pressure throughout the entire circulatory system (MAP). Hence veins tolerate high pressure and refer to as capacitance vessels of the body.
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Capacitive vessels are the venous system with the capacity to hold an increased volume of blood.
The term venous system describes the network of veins in the body and how those veins connect to other blood vessels and organs. The venous system consists of two main circuits or sections. These are the pulmonary circulation and the systemic circulation. For circuits to function, blood must flow through veins, arteries, and capillaries. Each vein is composed of three layers of tissue and fibers.
The adventitia (outer layer) of a vein gives it shape and structure.
Smooth muscle cells in the tunica media (middle layer) allow veins to expand or contract as blood flows.
The smooth endothelial layer of the intima (lining) allows blood to flow smoothly through veins.
During breathing, the skeletal muscle pump and chest respiratory pump work together to create venous pressure to push blood back to the heart. Mean arterial pressure refers to the pressure “MAP” throughout the circulatory system. Therefore, veins withstand high pressure and are called capacitive vessels of the body.
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DDT was developed as a synthetic insecticide. In 1972, DDT was banned for use in the United States due to its damaging environmental effects. In 3-5 sentences explain how introducing DDT into an ecosystem would impact a food chain. Be sure to include all relevant vocabulary in your answer
DDT has adverse affect on our environment due to its presence for a long time. In 1972, DDT was banned for use in the United States due to its damaging environmental effects.
What is DDT?DDT is an insecticide that can pass up in the food chain i.e. from insects to small birds, and then from small birds to big birds like hawks. High concentrations of DDT in birds leads to weakness in the egg shells.
This leads to a decrease in their population so we can conclude that DDT has adverse affect on our environment due to its presence for a long time.
Therefore, DDT has adverse affect on our environment due to its presence for a long time. In 1972, DDT was banned for use in the United States due to its damaging environmental effects.
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_ single stranded nucleic acid that contains the base uracil.
Answer:
RNA
Explanation:
However, unlike DNA, RNA is usually a single-stranded molecule. Also, the sugar in RNA is ribose instead of deoxyribose (ribose contains one more hydroxyl group on the second carbon), which accounts for the molecule's name. RNA consists of four nitrogenous bases: adenine, cytosine, uracil, and guanine.
Which statement accurately identifies the order of tissues pictured from left to right in the microscopic image?
Epithelial cells, smooth muscle, connective tissues
Epithelial cells, connective tissues, smooth muscle
Connective tissues, smooth muscle, elastic fibers
Connective tissues, elastin fibers, smooth muscle
The connective tissues support and protect and give stricture. The smooth muscles are involuntary non straighter muscles. The epithelial cells that line the surface of the body. The correct option is C
What is tissues?
Tissue can be defined as a group of cells that have similar structure and that function together as a unit.
There are primary types of body tissues are :
Epithelial Connective Muscular Nervous tissuesTherefore, Connective tissue is the most abundant tissue type in our body. It connects other cells and tissues together. It is typically found in our bones, cartilage, adipose, collagen, blood and many other areas in our body
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Which ecological relationhip i hown by the popular community pantrie? Why you ay o?
The popular community pantries are a perfect example of mutualism. We say so as mutualism is an ecological relationship between two or more organisms that mutually benefit one another.
In this case, the community pantries provide food to those in need, while members of the community donate food to support their local pantries.
This creates a mutually beneficial relationship where those in need are able to get food, and those who can give food can help the community.
The benefits of mutualism are clear in this example. Those in need can access food they would not otherwise have, while members of the community can help those in need while also getting a sense of satisfaction by giving back to their community.
Additionally, members of the community can build relationships through their donations and be part of a community that helps each other.
Overall, the community pantries are a great example of mutualism, where both parties involved benefit in some way.
The pantries provide food to those in need while also providing a sense of community and satisfaction to those who are donating food.
The question can correctly be written as:
Which ecological relationship is shown by the popular community pantries? Why do you say so?
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muscle contraction that permits the muscle to shorten
The muscle contraction that permits the muscles to shorten is concentric contraction while producing force and overcoming resistance. Muscle cells are made to contract. Muscles enable movements such as walking, as well as bodily processes such as respiration and digestion.
Muscle tissue is divided into three kinds in the body: skeletal muscle, cardiac muscle, and smooth muscle. Sarcomeres, the basic unit of muscle tissue, make up skeletal muscle tissue.
The sliding filament model of muscle contraction describes how muscle contraction takes place when sarcomeres shorten and thick and thin filaments slide past each other. The energy for cross-bridge formation and filament sliding is provided by ATP. Cross-bridge establishment is regulated by proteins such as troponin and tropomyosin.
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how many different combinations of gametes can be produced by this mosquito, assuming no homologous recombination between chromosomes?
Overall, the number of possible gamete combinations that can be produced by a mosquito with no homologous recombination between its chromosomes is equal to 2^n, where n is the number of chromosomes.
The number of combinations of gametes that can be produced by a mosquito can vary depending on the number of chromosomes it possesses.
In the case of a mosquito with no homologous recombination between its chromosomes, the number of possible gamete combinations is equal to 2^n, where n is the number of chromosomes.
These combinations are generated through a process called meiosis, which is the process of cell division that produces gametes.
During meiosis, chromosomes that have been replicated during DNA replication pair up with their homologous chromosome, and then move to opposite poles of the cell.
As a result, there is a random assortment of chromosomes that can occur, which leads to the production of different gamete combinations.
In addition to the random assortment of chromosomes, there can also be independent assortment of alleles. This is because each chromosome carries a pair of alleles, which are alternative forms of a gene, and these can be shuffled in a variety of combinations. This further increases the number of possible gamete combinations.
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As part of their normal function, many proteins bind to DNA briefly and then release it again. Which types of interactions might be involved in these transient protein-DNA interactions? Select all that apply. -van der Waals forces -covalent bonds -ionic bonds -hydrogen bonds,
Similar physical forces used by proteins to bind with DNA and RNA include electrostatic forces (salt bridges), dipolar forces (hydrogen bonds, H-bonds), entropic forces (hydrophobic contacts), and dispersion forces (base stacking).
The portion of a protein known as the ligand's binding site, which interacts with a ligand, often consists of a cavity in the protein surface created by a specific arrangement of amino acids. When the protein folds, these amino acids may come from various polypeptide chain segments that are brought together. The previously stated SH2 domain, which is frequently utilised to move a protein containing it to places in the plasma membrane, is an example of how other portions of the protein might act as a handle to move the protein to a specific spot in the cell.
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The bonds involved in the transient protein DNA interaction are Ionic bond, Vander waal force and Hydrogen bonds.
DNA acts as an important component for the genetic expression of various characteristics. Protein DNA interaction takes place when a protein gets bound to a DNA molecule.
The reaction for the above mentioned mechanism is responsible for the regulatory functions of DNA, especially in terms of genetic expression.
This protein DNA interaction depending upon various parameters could be specific as well as non-specific also and hence to carry these transient protein DNA interactions bonds like ionic, Vander wall and hydrogen are required.
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amenorrhea is an absence of menstruation, which can be the result of ________.
Amenorrhea is an absence of menstruation, which can be the result of multiple causes including pregnancy, menopause, PCOS, thyroid disorder, weight loss or gain, stress, medications, genetics, and eating disorder.
Some of the most common causes of amenorrhea are:
Pregnancy: This is the most obvious cause of amenorrhea, as menstruation stops during pregnancy.
Menopause: As women approach menopause, the ovaries stop producing eggs and estrogen levels decrease, leading to the cessation of menstruation.
Polycystic ovary syndrome (PCOS): This is a hormonal disorder that can cause irregular or absent periods.
Thyroid disorders: The thyroid gland plays a role in regulating hormones and metabolism, and thyroid disorders can disrupt normal menstrual function.
Excessive weight loss or weight gain: Significant changes in weight can affect hormone levels and disrupt the menstrual cycle.
Stress: Stress can affect hormone levels and disrupt the menstrual cycle.
Certain medications: Certain medications, such as birth control pills, can also cause amenorrhea.
Genetics/ familial history: Some women may have a genetic predisposition to amenorrhea
Eating disorders: Anorexia and bulimia can disrupt the menstrual cycle and cause amenorrhea.
It is important to note that some women may have functional amenorrhea which is a temporary absence of menstruation caused by stress, high level of physical activity, or other lifestyle factors.
It's important to see a healthcare provider if you have amenorrhea, as it can be caused by a variety of medical conditions that need to be diagnosed and treated.
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If a cell measures 10 mm when magnified by 100, what is the cell's actual size?
Answer: The cells actual size is 0.1
Explanation:
If a cell measures 10 mm when magnified a hundred times the the actual size of the cell would be 0.1 mm.
what is the size of a typical cell?The size of a cell depends on the type of the cell that is whether the cell is eukaryotic or prokaryotic, and on the type of organism to which the cell belongs. The prokaryotic cells are usually smaller than the eukaryotic cells. A typical eukaryotic cell ranges from 0.2- 2 micrometers in size.
The eukaryotic cells have a larger size ranging from 10-100 micrometers. They are about ten times larger in size than prokaryotic cells. Most plant cells are 10-100 micrometers across, while animal cells typically measure between 10 and 30 micrometers.
Animals, fungi, plants, and protists all have eukaryotic cells. Most of them have a nucleus, an organelle encased in a membrane known as the nuclear envelope, where DNA is kept.
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a eukaryotic cell can be distinguished from a prokaryotic cell because only a eukaryotic cell will have .
a eukaryotic cell can be distinguished from a prokaryotic cell because only a eukaryotic cell will have nucleus and membrane bound organelles.
True nuclei, which are membrane-bound compartments that house the cell's genetic material, are characteristics of eukaryotic cells. Instead of a proper nucleus, prokaryotic cells have a single circular DNA molecule that is not encased in a membrane.
Prokaryotic cells lack other membrane-bound organelles such lysosomes, peroxisomes, endoplasmic reticulum, mitochondria, and endoplasmic reticulum, which are present in eukaryotic cells.
These organelles serve distinct purposes, such as the creation of energy by the mitochondria, the transport and folding of proteins by the endoplasmic reticulum, and the breakdown and recycling of cellular components by the lysosomes.
Eukaryotic cells are not immortal unlike the prokaryotic cells.
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A eukaryotic cell can be distinguished from a prokaryotic cell by the presence of a nucleus and membrane-bound organelles.
Eukaryotic cells have true nuclei, which are membrane-bound compartments that house the cell's genetic material. Prokaryotic cells lack a proper nucleus in favour of a single circular DNA molecule that is not encased in a membrane.
Prokaryotic cells lack other membrane-bound organelles found in eukaryotic cells, such as lysosomes, peroxisomes, endoplasmic reticulum, mitochondria, and endoplasmic reticulum.
These organelles perform different functions, such as energy production by mitochondria, protein transport and folding by the endoplasmic reticulum, and cellular component breakdown and recycling by lysosomes. Eukaryotic cells, unlike prokaryotic cells, are not immortal.
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during strenuous exercise, blood flow to skeletal muscles increases. which type of vessels dilate in response to epinephrine and norepinephrine to facilitate this?
Arterioles are the type of vessels which dilate in response to epinephrine and norepinephrine to facilitate the increased blood flow to skeletal muscles during strenuous exercise.
When we are involved in a strenuous physical exercise, the oxygen consumption of our body gets increased by many fold. This oxygen is required by our skeletal muscles.
Hormones like epinephrine as well as norepinephrine along with dopamine are secreted by the adrenal medulla during exercise and are very important because these hormones act as central motor stimulators as well as peripheral vascular dilators to enhance enzyme systems and calcium release in muscle. Arterioles are the vessels which get dilated in response to these hormones.
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many molecules, including transcription factors, work together to transcribe genes and translate the information taken from the genes into proteins. what is a transcription factor? a protein that binds to a specific dna sequence to regulate transcription a protein, such as rna polymerase, that transcribes a specific dna sequence a nucleotide sequence that that binds to a ribosome to begin protein translation a nucleotide that binds to a specific dna sequence to activate transcription a protein that binds to a specific mrna to prevent it from being translated
A transcription factor is "a protein that binds to a specific DNA sequence to regulate transcription."
Transcription factors are a type of regulatory protein that bind to specific regions of the DNA called cis-regulatory elements to control the rate and timing of gene transcription. These proteins bind to specific DNA sequences to either activate or repress the transcription of genes by controlling the binding of RNA polymerase, the enzyme responsible for transcribing DNA into RNA. They play a critical role in controlling gene expression and are involved in a variety of cellular processes, including cell growth, differentiation, and development. They act as a regulatory switch that can turn on or off the expression of a gene by controlling the binding of RNA polymerase to the DNA. They play a crucial role in the regulation of gene expression and are involved in various cellular processes such as cell growth, differentiation and development.
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A protein in a transcription factor binds to a specific DNA sequence to control transcription. Here option B is the correct answer.
Transcription factors are proteins that bind to specific DNA sequences, known as enhancer or promoter regions, to regulate the transcription of genes.
They interact with the machinery of transcription, which is composed of RNA polymerase and other associated proteins, and modulate the rate and efficiency of gene transcription.
They do not signal a ribosome to start protein translation, that is a different process. They also don't bind to a specific mRNA to prevent it from being translated, that is also a different process.
Complete question:
Many molecules, including transcription factors, work together to transcribe genes and translate the information taken from the genes into proteins. What is a transcription factor?
A - a nucleotide sequence that signals a ribosome to start protein translation a protein, such as RNA polymerase, that transcribes a specific DNA sequence
B - a Protein that binds to a specific DNA sequence to regulate transcription
C - a nucleotide that binds to a specific DNA sequence to repress transcription
D - a protein that binds to a specific mRNA to prevent it from being translated
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hemoglobin, when subjected to 40% acetonitrile at ph 10.0, looses its quaternary structure, which means the
When 40% acetonitrile is added to haemoglobin at pH 10, the quaternary structure is lost, causing the and polypeptides to separate. four [tex]\alpha[/tex] and [tex]\beta[/tex] polypeptides dissociate, peptide bonds between amino acids, and [tex]\alpha[/tex] and [tex]\beta[/tex].
Red blood cells include the protein haemoglobin, which transports oxygen to your body's organs and tissues and carbon dioxide from those tissues back to your lungs. You have a low red blood cell count if a haemoglobin test finds that your haemoglobin level is lower than normal (anemia)
Based on the sort of structure they possess, proteins can be divided into 4 categories. The amino acid sequence order serves as the foundation for the primary structure. The amino acids' ability to form hydrogen bonds (such as -helixes or -sheets) determines the secondary structure. Based on the three-dimensional foldings that a single protein (monomeric protein) or polypeptide chain can acquire, the Tertiary Structure is a protein's final state. A collection of monomeric proteins or a multimer protein can obtain the quaternary structure by combining two or more subunits. In this instance, it denotes the disassembly or denaturalization of the four haemoglobin subunits and heme group in 40% acetonitrile at pH 10.0.
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The correct answer is:
Hemoglobin is iron-containing oxygen-transport metalloprotein in blood that carried oxygen from the lungs or gills to the tissues of the body. It is composed of four separate proteins: two [tex]\alpha[/tex] and two [tex]\beta[/tex] subunits. when it is subjected to 40% acetonitrile at ph 10.0, looses its quaternary structure, which means the __________
a. four [tex]\alpha[/tex] and [tex]\beta[/tex] polopeptides disssociate
b. polypeptide bonds between amino acids break
c. [tex]\alpha[/tex] and [tex]\beta[/tex] polypeptides lose their 3-D structure
d. four [tex]\alpha[/tex] and [tex]\beta[/tex] polypeptides dissociate, peptide bonds between amino acids, and [tex]\alpha[/tex] and [tex]\beta[/tex]
e. none
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Addition of 40-ethonitrile to hemoglobin at pH 10 results in loss of quaternary structure and separation of the polypeptides.
Red blood cells contain a protein called hemoglobin, which carries oxygen to the organs and tissues of the body and from those tissues carbon dioxide back to the lungs. If a hemoglobin test shows that your hemoglobin levels are lower than normal (anemia), you have a low red blood cell count.
Proteins are divided into four categories he based on their structure. The order of amino acid sequences is the basis of primary structure. The ability of amino acids to form hydrogen bonds (such as helices and sheets) determines their secondary structure. Tertiary structure is the final state of a protein, based on the three-dimensional folds that a single protein (monomeric protein) or polypeptide chain can adopt. Assembly of monomeric proteins or multimeric proteins can obtain quaternary structure by combining two or more subunits. In this case, we show the degradation or denaturation of the four hemoglobin subunits and the heme group in 40-ethonitrile at pH 10.0.
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which trophic level limits the population size, biomass and energy in the other trophic levels? justify your answer.
The trophic level that limits the population size, biomass and energy in the other trophic levels is the primary producer level.
This is because the primary producers form the base of the food chain, meaning that all other trophic levels rely on them for the energy needed to sustain the population size, biomass and energy of the other trophic levels.
Without the primary producers, the other trophic levels would not be able to exist, as they would not have access to the energy needed to sustain their populations.
Therefore, the primary producer level is crucial in maintaining the population size, biomass and energy of the other trophic levels.
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in dna fingerprinting what do restriction enzymes do
Answer:
breakdown of DNA into small pieces
Explanation:
We use restriction enzymes to digest the DNA and break it into smaller fragments .Steps in DNA fingerprinting:-
Firstly we isolate the DNA .Breakdown of DNA using restriction endonucleases .Seperation of fragments by Agarose Gel electrophoresisTransferring this digested DNA into nitrocellulose membrane ( or any other synthetic membrane) Hybridisation using VNTR probeDetection of fragments by autoradiography.I need help please thanks
the biological world is organized into many different levels, and each level builds on the level below it. what is the term used to describe this type of organization?
The biological universe is divided into numerous levels, each of which is built upon by the one below it. Hierarchical is the word used to describe this kind of structure.
Hierarchical is a term used when people, things, data, or items are arranged in order. For example, in a family, the grandparents were placed first or in higher order followed by the father and mother. Then children and grandchildren.
Similarly, in military services, there is also hierarchy which easily helps one to distinguish their rank. In an organization, also hierarchy is used to clearly define everyone's status as a manager, team leader, director, or employee.
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What would be the sequence of genes be for each chromatid after
crossing-over occurs.
O ABEcd, ABcde, aBCDE, aBCDe
O ABCDE, ABede, acte, abCdee
ABCdE, ABcde, aBCDE, aBCde
O ABCDE, ABcdE, aBCDE, ABCDe
ABCDE, ABcdE, aBCDE, and ABCDe would be the sequence of genes for each chromatid after crossing-over occurs.
The term "DNA sequencing" refers to a common laboratory procedure for figuring out the precise order of bases, or nucleotides, in a Nucleotide sequence. The biological info that cells require to develop and function is encoded in the sequence of the bases.
These are frequently referred to by the initial letters of their ingredient lists: A, T, C, and G. The most fundamental understanding of a gene or genome is its nucleotide sequence. Without knowing this information, no understanding of the genetic function or history could be comprehensive.
It is the blueprints that include the instructions for developing an organism. A technique used in laboratories to map out the complete genetic composition of a particular organism or cell type. This approach can be utilized to identify changes in regions.
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ABCDE, ABcdE, aBCDE, and ABCDe would be the sequence of genes for each chromatid after crossing-over occurs. The term "DNA sequencing" refers to a common laboratory procedure.
for figuring out the precise order of bases, or nucleotides, in a Nucleotide sequence. The biological info that cells require to develop and function is encoded in the sequence of the bases. These are frequently referred to by the initial letters of their ingredient lists: A, T, C, and G. The most fundamental understanding of a gene or genome is its nucleotide sequence. Without knowing this information, no understanding of the genetic function or history could be comprehensive. It is the blueprints that include the instructions for developing an organism. A technique used in laboratories to map out the complete genetic composition of a particular organism or cell type. This approach can be utilized to identify changes in regions.
Learn more about "DNA sequencing" here:
brainly.com/question/29925842
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