When hormones locate a specific antigen, they interact with particular protein receptors on the cell's interior or exterior to particularly alter the cell's actions.
In order to contact a signal peptide in the cell's cytoplasm (lipid-soluble hormones) or to bind an integrins protein in the target cell's cell membrane, hormones either diffuse through the outer membrane of the target cell to activate it (water-soluble proteins).
While some hormones only affect a few types of cells in the body, others have an impact on many different cell types. Each hormone has specific docking molecules, or receptors, that are found either on the surface of the cell or inside the cell. These molecules recognize the target cells for each hormone.
An enzyme inside of the cell membrane is activated by the hormone's binding. The second messenger, a molecule that is activated by the enzyme and has an impact on cellular functions.
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Hormones bind to the site specific protein receptors inside or on the surface of the cell .
In general , protein receptor identifies the hormone's message and carry forward the instructions by influence of gene expression or by altering protein activity at cellular level. Hormones also activate target cells with the help of plasma membrane on the target cells of a lipid-soluble hormones that bind to the receptor protein within the cytoplasm of the cell.
We can also say that the target cell responds to a hormone because they carries receptors for the hormone. Cell is considered as target cell for a hormone if it contains functional receptors for that hormone, and cells not having receptor cannot be influenced directly by that hormone.
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Once all the members of a____ have this favorable trait, then it is referred to as an ____.
CLOZE-ing in on Science
Once all the members of a population have this favorable trait, then it is referred to as an allele.
What is an allele?
This refers to a variation of the same sequence of nucleotides that are found at the same place within the DNA molecule."The chromosomal or genomic location of a gene or any other genetic element is called a locus while the alternative DNA sequences at a locus are known as the alleles.
Genes are responsible for the traits of an organism. They act as instructions for protein synthesis. One pair of each gene is always present on homologous chromosomes, one from each parent. These Genes are known as alleles that play an important role in shaping the features of the individuals.
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his phylogenetic tree was constructed by comparing sequences for a homologous gene involved in development. Select the correct statement.
The nucleotide sequence of this gene in a mouse is more similar to that in a chicken than it is to that in a frog, and neither is as similar to that of this gene in either animal. Here option C is the correct answer.
Phylogenetic trees are used to infer evolutionary relationships between different organisms based on similarities and differences in their genetic or molecular sequences. In a phylogenetic tree, the organisms that are more closely related are grouped together and are more similar in their genetic sequences.
A frog is not the ancestor of both a mouse and a chicken. The common ancestor of a human and a frog and the common ancestor of a mouse and a chicken did not live at the same time, the common ancestor of a human and a frog lived much earlier than the common ancestor of a mouse and a chicken.
In this case, the nucleotide sequence of this gene in a mouse is more similar to the sequence in a chicken, and both are less similar to the nucleotide sequence of this gene in a frog.
Complete question:
This phylogenetic tree was constructed by comparing sequences for a homologous gene involved in development. Select the correct statement.
A - Frog is the ancestor of both a mouse and a chicken.
B - The common ancestor of a human and a frog and the common ancestor of a mouse and a chicken lived at the same time.
C - The nucleotide sequence of this gene in a mouse is more similar to the sequence in a chicken, and both are less similar to the nucleotide sequence of this gene in a frog.
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The nucleotide sequence of this gene in a mouse is more similar to the sequence in a chicken, and both are less similar to the nucleotide sequence of this gene in a frog
.According to , the nucleotide sequence of this gene in a mouse is more similar to the sequence in a chicken, and both are less similar to the nucleotide sequence of this gene in a frog.
A frog is not the ancestor of both a mouse and a chicken. The common ancestor of a human and a frog and the common ancestor of a mouse and a chicken did not live at the same time.
The statement that the nucleotide sequence of a homologous gene involved in development is more similar in a mouse compared to a chicken, and both are less similar to the sequence found in a frog, suggests that the mouse and chicken are more closely related to each other on the evolutionary tree than they are to the frog. This information can be inferred from the branch lengths and positions on the phylogenetic tree, where closely related organisms are represented by shorter branches that are closer together. This statement is supported by the comparative analysis of the sequences of the homologous gene, which is a widely used method in molecular phylogenetics to infer evolutionary relationships among different organisms. In summary, the statement suggests that mouse and chicken are more closely related to each other on the evolutionary tree than they are to the frog based on the comparative analysis of the sequences of the homologous gene involved in development.
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Which of the following indicates pests that are controlled by nematicides?
O nematodes
O virae
O bacteria
O slugs
Answer:
Nematodes
Explanation:
Nematicides are a type of pesticide used to control pests that are nematodes, which are tiny, worm-like organisms that can damage plants by feeding on their roots. So the correct answer is nematodes.
Virae, bacteria, and slugs are not controlled by nematicides. Viruses are infectious agents that can cause diseases in plants. Bacteria are microorganisms that can also cause diseases in plants or animals. Slugs are mollusks that can damage plants by feeding on their leaves and stems.
in a Pp x Pp cross what is the probability that offspring will inherit two p alleles?
Answer:
Explanation:
each offspring of a Pp× Pp cross has a 50% chance of receiving either allele from either parent. So, the probability of inheriting two p alleles is 1/2 1/2. This equals 1/4.
Which of the following uses of commodity crops represents an indirect way the crop enters the human food
system?
O corn used as animal fodder in the dairy industry
Orice sold primarily as human food
O soybeans pressed to extract cooking oil
O cotton providing fiber for fabric manufacture
'Corn used as animal fodder in the dairy industry' represents an indirect way the crop enters the human food system.
What do you mean by crop?
Crop in biology refers to a plant organ or appendage that is used to store energy. It can also refer to the edible portion of a plant, such as grains, fruits, or vegetables. The crop is part of the digestive system of animals, such as birds and mammals, where food is stored before it is passed to the stomach for further digestion. In plants, the crop is often a modified leaf or stem that is used to store energy. Examples of plants with crops include grasses and cereal grains.
Corn used as animal fodder in the dairy industry does not directly enter the human food system. Instead, the corn is fed to animals such as cows, which then produce milk, meat, and other dairy products that humans consume. Thus, it is an indirect way that the crop enters the human food system since it is not consumed directly by humans.
Hence, option A is correct.
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a sample of bacteria is collected from soil in a field that was recently treated with pesticides. the bacteria are classified, and a phylogeny is built to illustrate the soil bacteria diversity. what kinds of characteristics would be best for creating this phylogeny?
A phylogenetic tree might be constructed utilizing morphological (body shape), biochemical, conduct, or sub-atomic highlights of species or different gatherings. In building a tree.
Phylogeny is the portrayal of the transformative history and affinities between sets of organic entities. The outcomes are characterized in a phylogenetic tree that takes care of a visual work of affinities in light of shared or dissimilar physical and characteristic qualities.
A phylogenetic tree might be constructed utilizing morphological (body shape), biochemical, conduct, or sub-atomic highlights of species or different gatherings. In building a tree.
In the phylogenetic examination, stretching outlines are made to address the transformative history or connection between various species, organic entities, or qualities of an organic entity (qualities, proteins, organs, and so forth) that are created from a typical predecessor. The outline is known as a phylogenetic tree.
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A phylogenetic tree can be created using the morphological (body form), biochemical, behavioral, or sub-atomic characteristics of various species or groups. constructing a tree.
The depiction of the evolutionary relationships and affinities between groups of organic organisms is known as phylogeny. A phylogenetic tree that considers affinities in light of shared or different physical and characteristic features is used to characterize the results.
Stretching outlines are used in the phylogenetic analysis to address how different species, organic entities, or characteristics of an organic entity (such as proteins, organs, and so on) have changed over time derived from a typical predecessor (and so on). A phylogenetic tree is the name given to the outline.
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if protein x (lectin) speeds up cell division, why does it actually seem to have a negative effect on root growth in soybean plants
We have outlined the lectins found in soybean plants' immunomodulatory properties as well as their impact against illness, including antimicrobial action.
On T lymphocyte cultures, lectins can be utilized as mitotic agents to promote cell proliferation that is started by their cross-linking with TCR on cell surface. This connection may activate particular signaling pathways that encourage cells to start the cell cycle for DNA replication. Lectins can attach to ribosomes and prevent the production of proteins.
Additionally, they can activate the caspase cascade and alter the cell cycle by causing non-apoptotic G1-phase accumulation mechanisms, G2/M phase cell cycle arrest, and apoptosis. Additionally, lectins can reduce telomerase activity and stop angiogenesis.
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Lectin has a negative effect on root growth in soybean plants because of its' immunomodulatory properties and antimicrobial action.
A single cell divides into two offspring, who subsequently divide her to form new cells. As new cells are created as old cells divide, we refer to these processes as "cell division" and "cell reproduction." Cell growth and chromosome replication precede cell division, which is also a part of cell cycle.
An antimicrobial is a substance that either eliminates or inhibits the growth of bacteria. Antimicrobial drugs can be categorised based on the microorganisms they are most effective against. Antibiotics are used to treat bacteria, whereas antifungals are used to treat fungi.
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For this lab report, you will be discussing the results shown in the data table from the previous page. Some of the questions
you should address in the discusssion include the following:
1. What were the independent variable and dependent variable in this experiment? In this experiment, what is being
altered for each trial and what is being recorded for the results.
2. Explain why counting the number of oxygen bubbles produced is an acceptable method to determine the rate of
photosynthesis. What is the connection between the oxygen bubbles and photosynthesis?
3. Why do white and green light colors cause different rates of photosynthesis?
4. Explain any possible sources of error in the experiment.
Elodea exposure time is a constant that is unaffected by the dependent variable, photosynthetic rate, or distance from the light source.
What was the dependent variable in the Elodea experiment?Elodea exposure time is a constant that is unaffected by the distance from the light source, the rate of photosynthesis, or the dependent variable.
The independent variable is the cause. Your study's other factors are irrelevant to how valuable it is. The dependent variable is the result. The value of the independent variable changes as it changes.
The dependent variable, which measured the rate of photosynthesis, was the number of bubbles that appeared when the light source was on. Photosynthesis will alter based on the amount of light.
Light output is a separate parameter (how close the light is). The number of oxygen bubbles released is the dependent variable (the rate of photosynthesis).
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discuss what are the similarities and differences in reproduction in sea turtles, sea snakes, and marine iguana?
Reproduction in sea turtles, sea snakes, and marine iguanas all have some similarities, but also have some distinct differences.
Sea turtles, sea snakes, and marine iguanas all lay eggs. The female will lay eggs on a beach, or in a nest that she has dug out.
After the eggs are laid, the nest is then covered up and the female will leave.
The eggs then incubate on their own until they hatch.
The biggest difference in their reproduction is the way in which their eggs are incubated.
Sea turtles bury their eggs in the sand and rely on the warmth of the sun to incubate them.
Sea snakes lay their eggs on land and rely on the heat of the ground and the sun to incubate them. Marine iguanas rely on the constant warmth of the lava rocks on the beach to incubate their eggs.
The mating process of these three animals also differs.
Sea turtles mate in the ocean and the male turtles will compete for a female’s attention. Sea snakes also mate in the ocean and the males will fight for the female’s attention.
Marine iguanas, on the other hand, mate on land and the males will fight for the female’s attention.
Overall, sea turtles, sea snakes, and marine iguanas have some similarities in their reproduction, but also have some distinct differences.
From the way in which their eggs are incubated, to the amount of eggs they lay, to the way that they mate, these animals have unique and fascinating reproductive cycles.
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Can anyone help 50 points for biology
Using the image below identify the following structures please
The main source of downward convection flow in the mantle is called _____ridge-pullslab-pullslab-pushridge-push
Slab - pull is the main source of downward convection flow in the mantle .
The force that a cold, dense oceanic plate exerts as it descends into the mantle as a result of its own weight is known as a slab-pull. Subduction is the term for this action.
The oceanic plate has a higher density than the hotter mantle underneath it, and because of this, the plate sinks into the mantle. A geophysical process known as slab pull occurs when a subducting tectonic plate cools and subsequently becomes denser, pulling the rest of the plate downward. A cold, solid oceanic plate that is being pulled into the mantle by its own weight is known as a slab. According to the hypothesis, the oceanic plate sinks into the mantle because it has a higher density than the hotter mantle underneath it.
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The primary cause of the mantle's downward convection flow is slab-pull.
A slab-pull is the pressure that an oceanic plate experiences as it sinks into the mantle as a result of its own weight. This action is known as subduction. The oceanic plate sinks into the mantle because it has a higher density than the hotter mantle beneath it. When a subducting tectonic plate cools and consequently gets denser, dragging the rest of the plate downward, this geophysical phenomenon is known as slab pull.
A slab is a cold, dense oceanic plate that is being dragged into the mantle by its own weight. The theory holds that the oceanic plate descends into the mantle because it has a larger density than the mantle underneath it, which is hotter.
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cellular atp concentrations are maintained well above equilibrium concentrations in cells. explain how atp concentration relates to actual free energy changes of reactions that involve atp and why it is important to keep atp levels high.
Gibbs free energy and ATP are directly proportional to each other and storage of ATP is important to make unfeasible reactions to feasible reactions.
ATP hydrolysis is the catabolic response process by which synthetic energy that has been put away in the high-energy phosphoanhydride bonds in adenosine triphosphate (ATP) is delivered in the wake of dividing these bonds, for instance in muscles, by creating work as mechanical energy. The item is adenosine diphosphate (ADP) and an inorganic phosphate (Pi). ADP can be additionally hydrolyzed to give energy, adenosine monophosphate (AMP), and another inorganic phosphate (Pi).[1] ATP hydrolysis is the last connection between the energy got from food or daylight and valuable work like muscle withdrawal.
If Gibbs free energy is less than zero(G<0) then it is said that reaction is possible to move in forward direction and ATP energy will release during the reaction but if (G>0) in that case that reaction is not possible to go in forward direction,in that case ATP energy which is stored in reactants that will be used to make reaction go in forward direction.
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scientists are continually discovering and documenting new species, although the rate of discovery of new species varies by group. in general, how would the discovery and documentation of species new to science change your estimates of the numbers of species that are potentially threatened? why is the discovery of new species sometimes a critical conservation issue?
Scientists are continually discovering and documenting new species, although the rate of discovery of new species varies by group.The numbers of species that are potentially threatened because it is endagered sometimes a critical conservation issue.
Vulnerable unit referred to species that considered to be facing a high risk of extinction in the wild. Endangered referred to new species that facing an extremely high risk of extinction in the wild. It is an organism that helps define an entire ecosystem.
Species critically endangered because they are loss of genetic variation and habitat. It is so important for us to protect our new species becuase it privodes healthy ecosystem which depend on plant and animal as well as for ecological cycle.
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The condition in which an organism has extra sets of chromosomes is called _____.
Polyploidy is the term used to describe the situation where an organism contains extra sets of chromosomes.
The heritable state of having more than two complete sets of chromosomes is known as polyploidy. Plants frequently have polyploid DNA, as do several fish and amphibian species. Instead of the typical 46 chromosomes per cell, a cell with triploidy has an additional set of chromosomes, making a total of 69 chromosomes present in the cell.
During fertilization, the extra pair of chromosomes comes from either the mother or the father. It occurs when a newborn is developing and has an extra set of chromosomes, which are DNA-carrying threadlike structures. Typically, a triploid pregnancy ends in an early miscarriage.
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The condition in which an organism has extra sets of chromosomes is called polyploidy.
It states that polyploidy is a chromosomal mutation that may provide benefits to an organism, especially in plants. It is observed in many examples of plants, including crop plants such as bananas, limes, and strawberries. It is important to note that numerical abnormalities in chromosomes is also known as trisomy and an example of this is Down Syndrome, which is marked by mental disability, learning difficulties, a characteristic facial appearance and poor muscle tone (hypotonia) in infancy.
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cells sap of an aquatic plant growing in the pond. Ions Sodium Calcium Concentration in pond water (parts per million) Potassium 2 Chloride 50 1.5 180 Sodium ions Concentration in cell Potassium ions sap (parts per million) 30 150 1 200 Name the processes by which the following ions could have been taken up by this plant.
Answer:
1. Sodium ions: Active Transport
2. Calcium ions: Passive Transport
3. Potassium ions: Active Transport
4. Chloride ions: Passive Transport
Why would immune cells be an important part of tissue repair? Why might it be particularly harmful to have scar tissue in the heart? A strange experiment can help to show the differences between scar tissue and normal skin tissue. If you were to throw flour on the man in the photo, the flour would stick to the man's chest everywhere but on his scar. Give a possible explanation for this.
Immune cells, such as white blood cells, play an important role in tissue repair by identifying and removing damaged or infected cells, promoting the growth and differentiation of new cells, and releasing molecules known as growth factors that stimulate the production of new blood vessels.
2. Scar tissue in the heart can be particularly harmful because it can interfere with the normal functioning of the heart. Scar tissue forms in response to injury or damage to the heart muscle, and it can disrupt the normal electrical and mechanical function of the heart. This can lead to arrhythmias, or irregular heartbeats, and can also make the heart muscle less flexible and less able to pump blood effectively.
3. The difference in the way flour sticks to the man's chest in the photo may be due to the fact that scar tissue is composed of different types of collagen than normal skin tissue. Collagen is a protein that gives skin its structure and strength. In scar tissue, the collagen fibers are arranged in a different pattern than in normal skin, which can affect the way that other substances, such as flour, interact with the tissue.
What are the immune cells?Immune cells, also known as white blood cells, are a crucial part of the body's immune system. They play a vital role in defending the body against foreign invaders such as bacteria, viruses, and other pathogens.
They also play an important role in tissue repair by identifying and removing damaged or infected cells, promoting the growth and differentiation of new cells, and releasing molecules known as growth factors that stimulate the production of new blood vessels.
There are several different types of immune cells, including neutrophils, lymphocytes, monocytes, and eosinophils. Each type of immune cell has a specific function and plays a unique role in the immune response. For example, neutrophils are the most abundant type of white blood cell and are responsible for engulfing and destroying pathogens.
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can you sequence the following levels of biological organization from smallest to largest?
Organelles, cells, tissues, organs, organ systems, organisms, populations, communities, ecosystems, and biosphere are the biological stages of the structure of living things, listed from the simplest to the most complex.
The cellular level is the earliest and most fundamental level of organization. The fundamental building block of life and indeed the smallest unit incapable of multiplication is the cell. Although the form and function of cells vary widely depending on the kind of species.
DNA, genes, and chromosomes are listed in size order, smallest to largest. The four various types with double DNA molecules that make up a chromosome are determined by the bases they are connected to. Adenine (A), thymine (T), guanine (G), and cytosine (C) are the four different kinds of DNA (C).
Mass spectrometry and Pcr degradation utilizing a protein sequencer are the two primary this to of protein sequencing (sequencer). The most used techniques now for protein sequence and recognition are mass spectrometry techniques.
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Levels of biological organization starting from smallest to largest organelle includes cells, tissues, organs, organ systems, organisms, populations, communities, ecosystem, and biosphere.
In general , organism level is considered as the highest level of organization. An organism is known as living being that includes cellular structure and can independently perform all physiologic process needed for life. Smallest level of organization is known as the cell. Next in row is tissue because it's more complex and are made from the group of cells, a group of tissue forms an organ, and a group of organs together known as organ system.
Similarly ,Ecosystems is also classified for the better understanding as They are organized from smallest to largest that includes organism, population, community, ecosystem.
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The major tissue type that acts as "a gatekeeper" because it regulates the movement of materials in and out of certain body regions is ________ tissue.
The major tissue type that acts as "a gatekeeper" because it regulates the movement of materials in and out of certain body regions is Epithelial tissue.
The epithelium is a type of tissue in your body that covers all of your internal and external surfaces, lines hollow organs and cavities, and is the main tissue in glands. Depending on where it is in your body, epithelial tissue plays a variety of roles, including protection, secretion, and absorption.
There are four primary types of tissue that make up the organs in your body: Epithelial, Connective, Muscular, and Nervous.
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The major tissue type that acts as "a gatekeeper" because it regulates the movement of materials in and out of certain body regions is epithelial tissue.
Epithelial tissue is a type of tissue that lines the surface of the body and forms the covering of internal organs, glands, and cavities. It acts as a barrier between the internal environment of the body and the external environment. Epithelial tissue is composed of cells that are closely packed together, with little extracellular matrix between them. The cells have various specialized structures such as tight junctions, desmosomes, and gap junctions that help to provide a barrier and allow for selective transport of ions, molecules, and fluids. The tight junctions, in particular, are important for the regulation of movement of materials in and out of certain body regions, as they create a barrier that prevents the diffusion of solutes between the cells. This makes epithelial tissue an important "gatekeeper" for the body's internal environment.
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Explain in your own words what being lactose tolerance means. Be sure you use the following terms in your explanation. enzyme, persistent, glucose, carbohydrate, lactose, monosaccharide, and hydrolysis.
Lactose intolerance is when someone has trouble digesting lactose, a sugar found in milk, and other dairy foods. If people with lactose intolerance eat dairy products, the lactose from these foods passes into their intestines, which can lead to gas, cramps, a bloated feeling, and diarrhea. Some people can have small amounts of dairy without problems. Others have a lot of stomach trouble and void all dairy products. Many foods, drinks, and digestive aids are available to help manage lactose intolerance eat something containing lactose, and an enzyme in the small intestine called lactase breaks it down into simpler sugar forms called glucose and galactose. These simple sugars are then absorbed into the bloodstream and turned into energy body doesn't make enough lactase to break down lactose. Instead, undigested lactose sits in the gut and gets broken down by bacteria, causing gas, bloating stomach cramps, and diarrhea.
What Are the 5 matching types of Minutiae?
Answer:
Minutiae are unique characteristics or features that can be used to identify an individual fingerprint. There are several types of minutiae, but the five most commonly used for fingerprint identification are:
Ridge ending: the point at which a ridge terminates
Bifurcation: the point at which a ridge splits into two separate ridges
Short ridge: a ridge that is shorter than the average ridge length in the fingerprint
Dot: a small, circular feature in the fingerprint
Island: a small, isolated area of ridges within a larger area of the fingerprint
Answer:
Explanation:
The five types of minutiae commonly used in fingerprint analysis are:
1. Ridge endings: where a ridge terminates
2. Bifurcations: where a ridge splits into two branches
3. Short ridges: ridges that are shorter in length than the surrounding ridges
4. Ridge dots: small, circular ridges that are typically found at the intersections of two ridges
5. Ridge crossings: where two ridges intersect each other, forming an X shape. :)
type of selection seen in dogs and other domestic animals
Answer:
Artificial selection
Explanation:
Humans have been selectively breeding plants and animals since time immemorial .This breeding lead to the creation of breeds thatdiffer from other breeds but are still under the same group . For eg . Dogs ( from wolfs )Cabbage , Cauliflower, brocoli evolved from a variety of wild mustard.It is often argued that if man could create new breeds within hundreds of years then nature could have done this same over millions of years .Hope this helps!
The triple helix structure of collagen protein Is possible largely due to a. glycine and its small side chain b. an exact palring of pyrimidlnes and purlnes
c. the covalent disulfide bridges between cystelnes d. the absence of carboxyl groups
The triple helix structure of collagen protein Is possible largely due to (c) covalent disulfide bridges.
A fibrous protein called collagen serves as the structural framework for numerous bodily tissues, such as tendons, ligaments, skin, and bone. Three polypeptide chains, each of which is rich in the amino acid glycine and allows for tight packing of the chains, are aligned to produce the distinctive triple helix structure of collagen.
The presence of covalent disulfide bridges between cysteine residues on the various chains, which aid in holding the chains together, is largely responsible for the stability of the triple helix structure. Collagen is more stable since it does not include carboxyl groups. collagen is major component of extracellular matrix.
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Collagen protein's triple helix structure Is made possible in large part by (c) covalent disulfide bridges.
Collagen is a fibrous protein that serves as the structural framework for many bodily tissues, including tendons, ligaments, skin, and bone. Three polypeptide chains, each of which is rich in the amino acid glycine and allows for tight packing of the chains, are aligned to produce the distinctive triple helix structure of collagen.
The presence of covalent disulfide bridges between cysteine residues on the various chains, which aid in chain stability, is largely responsible for the triple helix structure's stability. Collagen is more stable because it lacks carboxyl groups. Collagen is an important component of the extracellular matrix.
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which of the following is true about the north american diet? a. most of our protein comes from plant sources. b. approximately half of our carbohydrates come from simple sugars. c. most of our fats come from plant sources. d. most of our carbohydrates come from fibers.
Among the two Americans and Canadians, meat, eggs, and dairy are the main three protein sources, with fish and vegetables/nuts/seeds tumbling to the fourth and fifth spot, individually.
Attributes of the run of the mill American eating routine include: Not eating an adequate number of foods grown from the ground. Consuming refined grains rather than entire grains. Eating greasy wellsprings of protein, like broiled chicken, bacon, and frankfurter.
To meet the Dietary Rules for Americans, pick an eating routine with the vast majority of the calories from grain items, vegetables, organic products, low-fat milk items, lean meats, fish, poultry, and dry beans. Pick fewer calories from fats and desserts.
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True about the north American diet (b). approximately half of our carbohydrates come from simple sugars is correct option.
Monosaccharides are the building blocks of all carbohydrates. When it comes to the survival and well-being of living things, carbohydrates are one of the essential naturally occurring molecules. They perform a variety of functions, including supplying energy, storing energy, fertilizing, forming RNA, boosting the immune system, etc.
However, the carbohydrates are not all the same, and they can be split into four categories:
Monosaccharides
Disaccharides
Oligosaccharides
Polysaccharides
Each of them has a unique chemical makeup, giving them unique abilities. These many characteristics lead to various applications for each of them among living things. We all have a very good understanding of the smallest units, the monosaccharides and disaccharides, which are actually the ones that are referred to as sugars.
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the punnett square on p. 70 of your lab manual shows the genotypes of two parents for trait r. use this punnett square to answer the questions in this exercise. trait r is the mendelian trait in humans for tongue rolling. the allele for the ability to roll the tongue (r) is dominant over the allele for the inability to roll the tongue (r). what is the mother's genotype? group of answer choices
The genotypes of two parents for trait r is the mendelian trait in humans for tongue rolling. the allele for the ability to roll the tongue (r) is dominant over the allele for the inability to roll the tongue (r). The mother's genotype The mother is heterozygous (Rr) for the tongue-rolling trait.
There are two main types of genotypes that is homozygous and heterozygous. If an organism is homozygous for a gene, referred that they inherit two of the same versions of the gene. If an organism has a heterozygous genotype, referred that they inherit two different versions of a gene.
Genotype referred to the genetic makeup of an organism which described about an organism's complete set of genes. It is used to refer to the variant forms of a genes that are carried by an organism. The ability to roll the tongue is dominant over the allele for the inability to roll the tongue.
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during interphase, dna with actively transcribing genes is typically classified as ? why is his important?
Option b is Correct. DNA having genes that are actively transcribed during interphase is often referred to as euchromatin.
The chromatin form of it prevents gene expression. The loosely coiled DNA seen in cells during interphase is known as chromatin. Proteins called transcription factors are involved in the process of turning DNA into RNA, or transcribed DNA. A large variety of proteins—aside from RNA polymerase—called transcription factors start and control how genes are transcribed.
Typically, DNA is bound by a transcription factor at a specific target sequence. To activate transcription, general transcription factors bind to certain DNA locations. RNA polymerase is positioned by these auxiliary proteins, which group together on the promoter, separate the double helix, and then launch the RNA polymerase to start transcription.
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Correct Question:
During interphase, DNA with actively transcribing genes is typically classified as _________________? Why is his important?
A. heterochromatin
B. euchromatin
A(n) __________ is a number of people who may never have met one another but share a similar characteristic (such as education level, age, race, or gender)
A demographic is a number of people who may never have met one another but share a similar characteristic (such as education level, age, race, or gender).
Demographics refers to the statistical characteristics of a population, for example, age, orientation, pay, schooling level, occupation, race, and geographic area.
These characteristics can be utilized to fragment a population into explicit gatherings, which are known as segment sections or portions.
Advertisers, specialists, and investigators utilize segment data to more readily comprehend an objective market and design items, administrations, and promoting to explicit gatherings.
Demographics can likewise be utilized to depict the characteristics of a particular geographic area, like an area, city, or country.
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A demographic is a number of people who may never have met one another but share a similar characteristic (such as education level, age, race, or gender).
Demographics are a valuable tool used to gain insight into the characteristics of a population. Demographic data can be used by businesses to identify potential customers, by governments to address social issues, and by researchers to uncover trends and patterns in behavior. This data can also be used to compare differences between two populations and measure the success of an organization's efforts to reach a certain population.
For example, a company may measure the effectiveness of its advertising campaigns by knowing the demographics of its target audience. With this knowledge, the company can then adjust its strategy accordingly.
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if you were to divide a human head into equal parts using a frontal section and a transverse section, how and where would it be divided?
We were to divide a human head into equal parts using a frontal section and a transverse section into four parts; It would be divided verticаlly into аnterior аnd posterior portions, аnd horizontаlly аt аpproximаtely the top of the eаrs.
There аre three bаsic reference sections used in аnаtomy: the sаgittаl plаne, the coronаl plаne, аnd the trаnsverse plаne.
А coronаl or frontаl section divides the body into dorsаl аnd ventrаl (bаck аnd front, or posterior аnd аnterior) portions. А trаnsverse section, аlso known аs аn аxiаl plаne or cross-section, divides the body into crаniаl аnd cаudаl (heаd аnd tаil) portions. А sаgittаl section divides the body into sinister аnd dexter (left аnd right) portions.If we were to divide a human head into equal parts using a frontal section and a transverse section, it would be divided into 4 parts: verticаlly into аnterior аnd posterior portions, аnd horizontаlly аt аpproximаtely the top of the eаrs.
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which of the following findings would be expected in a 20-week-old fetus? select all that apply. skin is less transparent in appearance. skin is covered in vernix and lanugo. palate has just fused. blastocyst is beginning the process of implantation. sex is easily determined.
The 20-week-old fetus would be expected the skin to be less transparent in appearance, skin to be covered in vernix and lanugo, and sex to be easily determined.
Albinism, vitiligo, tinea versicolor, and other ailments can also contribute to translucent skin, which is often a genetic trait. Contact your doctor as soon as possible if your skin changes quickly, and you experience shortness of breath or other health problems associated with abnormally translucent skin.
Vernix, a waxy, cheese-like substance that surrounds the skin of a baby, safeguards it from amniotic fluid. Vernix eliminates chaffing on a baby's skin while it is still in the womb. Vernix adheres to a baby's skin more readily and provides skin protection when lanugo is prominent.
The sex can be discovered by ultrasound as early as 14 weeks, however, most doctors schedule them for 18 to 21 weeks. But it's not always entirely accurate. It's possible that your baby is in an uncomfortable situation that makes it impossible to see the genitalia clearly.
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The skin of the 20-week-old fetus should appear less transparent, be covered in vernix and lanugo, and be easy to distinguish between the sexes.
You are halfway through your pregnancy and five months along at 20 weeks. You can notice a change in your weight and belly button as your baby and uterus develop more.
Translucent skin is frequently a genetic feature, but other conditions such as tinea versicolor, vitiligo, and albinism can also cause it. If your skin changes rapidly, you develop breathing difficulties or other health issues linked to abnormally translucent skin, call your doctor as soon as you can.
A baby's skin is protected from amniotic fluid by vernix, a waxy, cheese-like material that surrounds it. During pregnancy, Vernix prevents chaffing on a baby's skin. When lanugo is present, vernix more readily attaches to a baby's skin and offers skin protection.
Because of the discomfort of the infant, it is impossible to observe the genitalia clearly.
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There are seven types of proteins. Three of them are structural, mechanical, and nutrient. What are the other four
Proteins can be divided into seven different categories: storage, transport, contractile, hormonal, enzyme, and contractile proteins.
Cells use proteins for a variety of purposes. They function as enzymes that catalyse chemical events, offer structural support, control how substances move through the cell membrane, defend the body against disease, and organise cell signalling pathways. All proteins fall into one of seven different categories of proteins. These consist of proteins that are structural, storage, transport, contractile, hormonal, enzyme, and antibody.Organic molecules called proteins are found in all living things. They perform a wide range of tasks, such as transportation, organising, and defence. Proteins have up to four different layers of structure and are made up of chains of amino acids.
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epithelia are strong membranes that function to bind the body together.
True ,epithelia are strong membranes that function to bind the body together.
Epithelia are formed by Intercellular junctions that works importantly in sealing the space present in between the cells by filling all the gaps also known as gap junctions.
Epithelia are also considered as a the type of respiratory epithelium that is found within the linings of the trachea and other areas of respiratory tract, that helps in filtering and humidification of incoming air. They help our body to perform wide array of functions that include protection, secretion, absorption, filtration, diffusion, and excretion.
Complete question is
Epithelia are strong membranes that function to bind the body together. True or False
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False. Epithelia are not strong membranes that function to bind the body together.
While epithelia do serve a variety of functions in the body, including protecting underlying tissues, regulating the exchange of materials across membranes, and sensing changes in the external environment, they are not considered to be strong membranes that function to bind the body together. Other structures, such as connective tissues, are responsible for providing the physical support and strength needed to bind the body together.
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Complete Question:
Epithelia are strong membranes that function to bind the body together. true/false.