Ecosystems with high biodiversity tend to be more resilient to change because they have a greater variety of species, which can perform different functions and roles within the ecosystem.
However, it is difficult to determine which ecosystem is the most resilient to change based solely on its diversity, as different ecosystems may have different factors that contribute to their resilience.
That being said, tropical rainforests are often considered to be among the most diverse ecosystems on the planet, with a wide variety of plant and animal species.
This diversity allows for many different ecological niches to be filled, and also provides a greater potential for adaptation and evolution in response to environmental changes.
Additionally, coral reefs are another example of an ecosystem with high biodiversity, and they are known for their resilience to natural disturbances such as storms and hurricanes.
Coral reefs are able to recover from these events due to the presence of many different species, which can help to stabilize the ecosystem and promote recovery.
Overall, while it is difficult to say which ecosystem is the most resilient to change based solely on its diversity, ecosystems with high biodiversity are generally better equipped to handle disturbances and adapt to changing conditions.
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______ results in genetically identical daughter cells, whereas ______ results in genetically different daughter cells.
Identical daughter cells are produced as a result of mitosis whereas meiosis results in the formation of the daughter cells which are different genetically.
Mitosis and Meiosis are the stages of the cell cycle which can be further divided into stages called prophase, metaphase, anaphase and telophase. Mitosis results in the formation of two diploid daughter cells which genetically identical to the initial parent cell.
In the process of meiosis, the DNA gets exchanged between the chromosomes that are paired. This shuffling of DNA results in the formation of daughter cells after cell division which are genetically dissimilar.
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Which number identifies the system that serves as the site of nutrient and waste exchange between cells and the interstitial fluid?
The site for exchange nutrients and waste in capillaries.
Exchange of Gases, Nutrients, and Waste Between Blood and Tissue by diffusion Occurs in the Capillaries. Capillaries are very tiny blood vessels — so small that a single red blood cell can barely fit through them. They help to connect your arteries and veins in addition to facilitating the exchange of certain elements between your blood and tissues.
Plasma and interstitial fluid are very similar because water, ions, and small solutes are continuously exchanged between them across the walls of capillaries, through pores and capillary clefts.
Capillary walls contain small pores that allow certain substances to pass into and out of the blood vessel.
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What type of cross is a mating between two individuals that are both heterozygous for the same two genes? multiple choice question.
Dihybrid cross ,the alleles used to form the zygote were the same. A mating experiment between two organism that are identically hybrid for two traits. Hetrozygous individuals ,used two different alleles to form the zygote.
Its a cross between two individuals with two observed traits that controlled by two different genes. This idea was developed by Gregor Mendal when he study on pea plants that were yellow or green and either round or wrinkled.
Dihybrid cross genotypic ratio is 1:2:1. Third cross of two heterozygous parents and phenpotypic ratio is 9:3:3:1. It is class Mendelian ratio for a dihybrid cross in which alleles of different genes are independently into gametes.
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The _____ system transports nutrients and oxygen to the cells and takes carbon dioxide and waste products to the lungs and kidneys for elimination.
The circulatory system transports nutrients and oxygen to the cells and takes carbon dioxide and waste products to the lungs and kidneys for elimination.
How does the circulatory system work?The circulatory system transports nutrients and oxygen to all the cells of the body. Circulatory system consists of the heart and the blood vessels (arteries and veins) which are present throughout the body and deliver nutrients and oxygen. The arteries work to carry the blood away from the heart while the veins carry it back to the heart. The network of blood vessels is just like a tree with branches.The heartbeats control the blood circulation.Blood flows from the atria to the ventricles from where it gets distributed to other organs.The brief pathway of blood through heart is as follows: different organs of the body > inferior/superior vena cava > right atrium > right ventricle > pulmonary arteries > lungs > pulmonary veins > left atrium > left ventricle > aorta > body cellsLearn more about circulatory system here:
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Rouleaux formation is characterized by _______. Rouleaux formation is characterized by _______. an increase in ESR an increase in ESR and a decrease in fibrinogen production a decrease in fibrinogen production a decrease in ESR and a decrease in fibrinogen production a decrease in ESR
Correct answer is A. Rouleaux formation is characterized by an increase in ESR.
What is Rouleaux formation in ESR?Since rouleaux formation is primarily determined by elevated levels of plasma fibrinogen and globulin.ESR primarily reflects changes in plasma proteins associated with acute and chronic infections, some tumors, and degenerative diseases. Under such circumstances, the ESR value is much higher than 20 mm/h.In inflammatory conditions, fibrinogen, other coagulation proteins, and alpha globulin become positively charged, increasing ESR.To learn more about RBCs from the given link
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The phases of meiosis that can result in the most variation in the four resulting daughter cells are:_______
Phases of meiosis that can result in the most variation in the four resulting daughter cells is Telophase II. In telophase II, nuclear membranes form around each set of chromosomes, and the chromosomes decondense. Cytokinesis splits the chromosome sets into new cells, forming the final products of meiosis four haploid cells in which each chromosome has just one chromatid.
During telophase II, the chromosomes are enclosed in nuclear membranes. Cytokinesis follows, dividing the cytoplasm of the two cells. At the conclusion of meiosis, there are four haploid daughter cells that go on to develop into either sperm or egg cells.
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While watching the Yankees game in the lab, you accidentally mutate the nuclear localization signal sequence of the large protein Moose 2, rendering the sequence not functional. Which of the following observations do you expect
The correct answer is Moose 2 is localized in the cytosol.
CytosolOne of the liquids present inside cells is the cytosol, which is also referred to as groundplasm or the cytoplasmic matrix. Membranes split it into compartments for storage. The mitochondrial matrix, for instance, divides the mitochondrion into several compartments.
The cell membrane of a eukaryotic cell encloses the cytosol, which is a component of the cytoplasm, which also contains the mitochondria, plastids, and other organelles. The cell nucleus is located outside of the cytoplasm. Therefore, the cytosol is a liquid matrix that surrounds the organelles. The majority of metabolic chemical reactions in prokaryotes occur in the cytosol, but a small number also occur in membranes or the periplasm. In eukaryotes, some metabolic pathways still take place in the cytosol, while others happen inside the organelles.
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The structures that guard the nostrils and ear canals, preventing foreign particles from entering these areas are also called guard hairs or
The structures that guard the nostrils and ear canals, preventing foreign particles from entering these areas are also called guard hairs or Vibrissae
Ear and EardrumYour ears stay clean and healthy thanks to earwax. It also serves to safeguard the lining of your ear canal and is waterproof. Earwax can be either soft and moist or dry and stiff. It can range in color from yellow to brown.The modified apocrine glands known as ceruminous glands are located in the epidermis of the human external auditory canal and produce ear wax along with sebaceous glands. Cerumen is crucial in the ear canal's defense against harm from external factors and microbial invasion.Putting a wick in the ear may be necessary if the ear canal is extremely enlarged. The wick will help the drips get to the canal's conclusion.
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For a species with a Type II curve, less than ____% of individuals survive for 50% of the maximum life span. At 50% of maximum life span.
10% is the answer.
In contrast, the Type II curve describes birds, mice, and other organisms characterized by relatively constant mortality or survival throughout life.
Type II. Many bird species have a type II survival curve. On the Type II curve, organisms die almost evenly at each age interval. Organisms with this type of survival curve also have relatively few offspring and can provide important parental care.
The Type II survival curve shows near-constant mortality throughout the life of the species. This means that the probability of an individual dying is independent of age. The Type II survival curve is plotted as a diagonal down the graph.
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The _________________ is composed of and endothelial layer that is continuous with the endocardium of the heart.
The tunica media is composed of an endothelial layer that is continuous with the endocardium of the heart.
What is tunica media?
Collagen, elastin, and smooth muscle cells make up tunica media. It is located halfway between the tunica externa and the tunica intima. The transverse arrangement of its strands and color make the middle coat (tunica medium) distinct from the inner (tunica intima). It not only supports the vessel but also alters the vessel's width to control blood pressure and flow.
Elastic fibers make up the majority of the tunica media in bigger vessels. The number of elastic fibers reduces as arteries get smaller, whereas the number of smooth muscle fibers grows. The strongest of the three layers is the tunica adventitia, which is the top layer. Elastic and collagenous fibers make up its structure.
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Explain how extraction of aluminium from bauxite may contribute to the acidification of water.
Carbon dioxide produced in the extraction of aluminum from bauxite may contribute to the acidification of water.
How does extraction of aluminum from bauxite may contribute to the acidification of water?The extraction of aluminum from bauxite occurs in two steps.
Bauxite is first purified to produce alumina. Aluminum is then obtained from alumina by electrolysis. During the electrolytic process, carbon dioxide is produced at the anodes. This carbon dioxide dissolves in water to form carbonic acid resulting un the acidification of water.
In conclusion, the extraction of aluminum is from the ore bauxite.
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Answer:
Carbon dioxide produced in the extraction of aluminum from bauxite may contribute to the acidification of water.
How does extraction of aluminum from bauxite may contribute to the acidification of water?
The extraction of aluminum from bauxite occurs in two steps.
Bauxite is first purified to produce alumina. Aluminum is then obtained from alumina by electrolysis. During the electrolytic process, carbon dioxide is produced at the anodes. This carbon dioxide dissolves in water to form carbonic acid resulting un the acidification of water.
In conclusion, the extraction of aluminum is from the ore bauxite.
For the cross in Part B, predict the frequencies of each of the phenotypes in the F1 progeny, and determine the genotype(s) present in each phenotypic class.
The genotype(s) present in each phenotypic class.
yellow round: 3/8, RrYY, RrYy (x2)yellow wrinkled: 3/8, rrYY, rrYy(x2)green round: 1/8, Rryygreen wrinkled: 1/8, rryyGenotype AaBbCc can produce 8 types of gametes, i.e., ABC, Abc, ABc, AbC, abc, aBC, aBc and abC.What is the genotypic ratio of the F1 generation?
Since that component is regarded as dominant, generation F1's genotype ratio of 100 percent Ss hybrid resulted in 100 percent smooth pea production. Mendel was producing the Ss X Ss hybrid by self-fertilizing those F1 individuals.What is the genotype of the green pod plant?
Due to the dominance of green (G) over yellow (g), plants with G in their genotypes produce green pods. The only plants with yellow pods are gg-genotype plants.What is the phenotype of F1 progeny?
Given that one dominant and one recessive allele were transmitted from the parents, the F1 generation exhibits a uniform round yellow phenotype, as predicted by the first law.
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The presence of precancerous changes in the cells that make up the inner lining of the cervix is known as:
The presence of precancerous changes in the cells that make up the inner lining of the cervix is known as cervical dysplasia.
Cervical dysplasia, also known as cervical intraepithelial neoplasia (CIN) can be described as a precancerous condition characterized by abnormal cell division which is usually observed in the surface lining of the cervix or endocervical canal, the opening between the uterus and the vagina.
Women under the age of 30 years are at higher risk of getting this disease which is usually discovered through a pap test. Mild cervical dysplasia sometimes resolves without treatment but proper maintenance of diet and hygiene is required with proper follow-up and regular check-ups whereas moderate and severe cases require proper treatment and removal of abnormal cells through surgery to reduce the risk of cervical cancer.
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The urinary system does all of the following except A. excreting excess albumin molecules. B. regulating blood volume. C. eliminating organic waste products. D. regulating plasma concentrations of electrolytes.
The urinary system does all of the functions above except regulating blood volume (option B).
What is excretory system?The excretory system is the collection of organs that work together to remove or eject material that has no further use from the body.
The urinary system is a part of the excretory system that deals with the removal of urinary waste products.
The urinary system has the following functions:
excreting excess albumin moleculeseliminating organic waste productsregulating plasma concentrations of electrolytesTherefore, the urinary system does all of the functions above except regulating blood volume.
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A(n) ___________________ is a substance with specific chemical and physical properties.
Neutron
Proton
Electron
Element
Answer: Elements
Explanation: Elements are unique forms of matter with specific chemical and physical properties that cannot be broken down into smaller substances by ordinary chemical reactions.
Interestingly, experiments have shown that PALA can act as both an activator and an inhibitor of ATCase activity. Specifically, PALA acts as an activator at low concentrations and an inhibitor at high concentrations. Propose an explanation for this observation.
A Final statement or concluding statement PALA may activate ATCase at low Asp concentrations and saturating CP concentrations .
According to the Statement:
Instead of activation, inhibition occurs when PALA or Asp concentrations are high. The activation generated by low concentrations of PALA can be explained by the MWC model. The majority of the population of the enzyme does not transition to the R state at low Asp concentrations because the Asp concentration is insufficient to encourage this transition. As a result, the majority of the enzyme population is in the low-activity, low-affinity T state.
On the other hand, PALA binding, because of the way its structure resembles the transition state structure of the process, is able to keep the enzyme in the high-activity, high-affinity R state.
As a result, activity increases at low concentrations of PALA; but, as PALA concentration rises, more and more of the active sites are replaced by the non-hydrolyzable bisubstrate analog, and activity falls. At high Asp concentrations and a saturating CP concentration, PALA activation is not seen.
PALA binding just blocks the active site to which it binds and reduces activity because the enzyme population is already in the R state under these circumstances.
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A Final statement or concluding statement PALA may activate ATCase at low Asp concentrations and saturating CP concentrations .
However, increasing the concentration of PALA or Asp results in inhibition rather than activation. The MWC model can explain the activation caused by low amounts of PALA.
Because the Asp concentration is inadequate to promote the transition to the R state for the majority of the enzyme population at low Asp concentrations, the enzyme remains mostly in the low-activity, low-affinity T state. PALA binding, on the other hand, is able to maintain the enzyme in the high-activity, high-affinity R state because its structure mirrors the transition state structure of the process.
The concerted shift to the R state frees up the majority of active sites, allowing them to react with substrates and produce products, while a minority of active sites bound with PALA are inactive yet keep the enzyme in the R state.
As a result, activity rises at low PALA concentrations; but, as PALA concentration increases, more and more of the active sites are replaced by the non-hydrolyzable bisubstrate analog, and activity decreases. PALA activation is not detected at high Asp concentrations and a saturating concentration of CP.
Because the enzyme population is already in the R state under these conditions, PALA binding merely blocks the active site to which it binds and decreases activity.
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Comparing plant and animal cells Drag the correct label under each cell structure to identify whether it is found only in animal cells, only in plant cells, or in both types of cells. Labels can be used once or more than once.
The correct answers are:
Lysosome - found in ANIMAL cells but not most plant cells
Cell wall - found in PLANT cells but not animal cells
Nucleus - found in both PLANT and ANIMAL cells
Chloroplast - found in PLANT cells but not animal cells
Rough endoplasmic reticulum (ER) - found in both PLANT and ANIMAL cells
CellsAll biological things are constructed from simple units called cells. Millions of billions of cells make up the human body. They give the body structure, absorb nutrients from the diet, transform those nutrients into energy, and perform certain tasks. Furthermore, cells may replicate themselves and hold the body's genetic material.
The various components of cells each serve a unique purpose. Organelles are specialized structures that carry out particular functions for the cell among these other sections. All biological things are constructed from simple units called cells. All biological things are constructed from simple units called cells. Millions of billions of cells make up the human body.
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There is a major difference between homeostasis and allostasis. Sterling and Eyer (1988) coined the term allostasis to mean that
The primary explanatory framework for physiological control, homeostasis, has undergone major adjustment in recent years, with modern models varying greatly from the original formulation.
Allostasis, a different perspective on physiological control, extends beyond its homeostatic foundations, providing unique insights pertinent to our understanding and treatment of a variety of chronic health disorders. Despite increased interest in allostasis, the notion remains ambiguous, in part because of uncertainty in how the term is defined and used, hindering effective translational and clinical research on allostasis.
The processes behind physiological regulation and dysregulation are anticipated to have significant health and disease consequences.
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What is the final electron acceptor of the series of re-dox reactions that are facilitated by the electron transport chain in mitochondria?
In electron transport chain (ETC) , Complex IV, also known as cytochrome c oxidase, oxidises cytochrome c and delivers the electrons to oxygen, the final electron carrier in mitochondria.
The electrons in the electron transport chain (ETC) pass through a chain of proteins that raises its reduction potential and results in an energy release. A proton gradient is produced by pumping hydrogen ions (H+) from the mitochondrial matrix to the intermembrane space, with the majority of this energy being lost as heat in mitochondria .
This gradient generates an electrical difference with a positive charge outside and a negative charge inside, increasing the acidity.
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The number of mitochondria in a cell would be a general indicator of the extent of:________
The number of mitochondria in a cell would be a general indicator of the extent of ATP production in that cell.
In the mitochondria of a cell, the process of cellular respiration also results in the formation of ATP. This can be done through either anaerobic or aerobic respiration, depending on whether oxygen is present. From glucose and oxygen, aerobic respiration creates ATP, as well as carbon dioxide and water.By adding a phosphate group to another molecule, ATP can drive biological operations (a process called phosphorylation). Special enzymes are responsible for carrying out this transfer, which connects the cellular processes that need energy to the release of energy from ATP.learn more about ATP here: https://brainly.com/question/869305
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Leukocytes at the infected site are a symptom of:________
a. gardnerella vaginosis.
b. genital herpes.
c. candidiasis.
d. trichomoniasis.
e. lymphogranuloma venereum.
According to the research, the correct option is d. Leukocytes at the infected site are a symptom of trichomoniasis.
What is trichomoniasis?It is a sexually transmitted infection (STI) that can affect the urogenital tract in both men and women whose disease-causing agent is a parasite called Trichomonas vaginalis.
People with this non-fatal chronic type infection present a high value of leukocytes in the laboratory analysis since these indicate the establishment of the pathological process in the body and tend to increase to fight the infection.
Therefore, we can conclude that According to the research, the correct option is d. Leukocytes at the infected site are a symptom of trichomoniasis.
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Describe the activities of the enzymes required to construct a recombinant dna molecule.
Recombinant DNA is the approach of becoming a member of two or greater DNA molecules to create a hybrid. The technology is made possible via sorts of enzymes, limited endonucleases, and ligase. A limit endonuclease acknowledges a specific collection of DNA and cuts within, or close to, that series.
Recombinant DNA is the method of joining or extra DNA molecules to create a hybrid. The technology is made possible via forms of enzymes, limited endonucleases, and ligase. A limit endonuclease acknowledges a specific sequence of DNA and cuts within, or near, that collection.
A recombinant DNA molecule is produced by using joining together two or greater DNA segments typically from different organisms. greater especially, a recombinant DNA molecule is a vector (e.g. plasmid, phage, or virus) into which the preferred DNA fragment has been inserted to enable its cloning in the proper host.
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After the cerebellum receives proprioceptive information from muscles carrying out a voluntary movement, where does it send corrective feedback?
After the cerebellum receives proprioceptive information from muscles carrying out a voluntary movement, where does it send corrective feedback to primary motor cortex and cerebral nuclei.
The cerebellum, also known as the corticocerebellum, has a close connection to the regulation of movement timing, rate, range, length, direction, and strength. The cerebellum receives information from the command neurons and also obtains feedback (afferent) from the proprioceptive terminals of the muscles, tendons and joints regarding what the actual movements produce .
All these information are combined and the correction signals are given to the motor cortex. The motor nuclei of the cranial nerves and spinal cord exert the lowest level of motor control. Through the closed feedback loop, this occurs.
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Worms are classified into three phyla: flatworms, roundworms, and annelids. what is the feature that distinguishes them?
Annelids are the feature that distinguishes them.
Annelids are segmented worms while roundworms are not segmented. further, annelids have a true coelom at the same time as roundworms have a pseudocolor. this means annelids have a well-developed mesoderm whilst roundworms lack a mesoderm. those are the primary capabilities that distinguish annelids from roundworms.
The 3 main malicious programs phyla are flatworms, roundworms, and segmented worms. Roundworms have a digestive tube that has openings. Segmented worms have a closed circulatory system wherein blood is enclosed in blood vessels. These are crucial steps in the evolutionary development of animals.
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When performing the Kirby-Bauer assay, the presence of a zone of inhibition indicates that __________.
Answer: that the bacteria are more sensitive to the antibiotic in the disk.
Explanation:
Figure: Kirby-Bauer test: In Kirby–Bauer testing, discs containing antibiotics are placed on agar where bacteria are growing, and the antibiotics diffuse out into the agar.
_______________ speciation emphasizes slow gradual change of genetic information (phyletic gradualism)
Sympatric is the answer.
Sympatric speciation is the evolution of a new species from a surviving ancestral species while both continue to live in the same geographic area.
Sympatric speciation occurs when all members are in close proximity to each other, with no physical barriers to prevent species members from mating with each other. New species, perhaps based on different food sources or characteristics, appear to evolve spontaneously.
Speciation (biological definition): A form of speciation in which a new species evolves from a single ancestral species while living in the same geographic area. Orthotopic speciation is more common in plants. For example, a parent plant produces progeny that are polyploid.
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A compound called tpp activates an enzyme critical in carbohydrate metabolism. tpp is:________
a. a branched-chain amino acid.
b. a coenzyme.
c. a b-vitamin called thiamin.
d. a derivative of adenosine triphosphate (atp).
Compound called tpp activates an enzyme critical in carbohydrate metabolism is a coenzyme.
Thiamine (vitamin B1) is a precursor of the well-known coenzyme of central metabolic pathways thiamine diphosphate (ThDP). Highly intense glucose oxidation in the brain requires ThDP-dependent enzymes, which determines the critical significance of thiamine for neuronal functions. Thiamin pyrophosphate (TPP) is a cofactor for a number of enzymes, such as transketolase, pyruvate dehydrogenase, and α-ketoglutarate dehydrogenase. TPP works as a coenzyme in many enzymatic reactions, such as Pyruvate dehydrogenase complex. Pyruvate decarboxylase in ethanol fermentation.
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Assume you are growing bacteria on a lipid medium that started at pH 7. The action of bacterial lipases should cause the pH of the medium to Group of answer choices Decrease. Stay the same. Increase.
The action of bacterial lipases should cause the pH of the medium to decrease.
Do bacteria have lipase?The majority of lipase-producing microbes are bacteria, fungus, and yeast. Bacillus spp., Pseudomonas spp., Staphylococcus sp., and Burkholderia sp. are the most typical bacterial suppliers of lipases. Lipases are mostly produced by bacteria especially Bacillus species whose pH is 7.0
The majority of bacterial lipases are extracellular and are made through submerged fermentation. Along with some more contemporary techniques such as reverse micellar and aqueous two-phase systems, hydrophobic interaction chromatography is the method that is most frequently used to purify enzymes. Most lipases can act in a wide range of pH and temperature, though alkaline bacterial lipases are more common.
In relation to the pH, since lipases produce fatty acids, we can expect that the pH decreases, given the acid character of the fatty acids.
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The ability of a muscle to contract and relax is dependent on the flow of what substance out of and into its storage site in the muscle cell? calcium chloride phosphorus iron
The ability of a muscle to contract and relax is dependent on the flow of calcium out of and into its storage site in the muscle cell.
Microfilaments travel over thick filaments as muscles flex.
The sliding filament theory describes how muscles contract. Myofilaments within your muscle fibers grasp hold of one another and slide to create a muscular contraction during this phase. However, without the presence of calcium, this is not possible. The myofilaments that cause a contraction are actin and myosin. Myosin grabs hold of actin via a myosin crossbridge, which resembles a small arm, to alter the form of the muscle. The tropomyosin molecule prevents the crossbridge from attaching at the precise location where it is required to do so. In addition to being connected to actin, tropomyosin is also connected to troponin. Calcium is released into the fiber in response to nervous system stimulation for a contraction.It associates with troponin and induces it to shift tropomyosin, revealing the myosin cross bridge's binding location. The muscle can now contract since calcium is present.learn more about muscle here: https://brainly.com/question/13920046
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Orange juice containing added calcium is an example of which type of food?
a. fortified
b. processed
c. imitation
d. functional
e. enriched
Orange juice containing added calcium is an example of which type of food d. functional.
Orange juice is a liquid extract of the orange tree fruit, produced via the use of compacting or reaming oranges. it's miles to be had in several differing types. Orange juice refers back to the juice of oranges. it's miles made by squeezing the sparkling fruit, drying, and later rehydrating the juice.
regular consumption of Orange juice has been associated with numerous fitness benefits, which include advanced heart fitness, reduced irritation, and a discounted hazard of kidney stones.
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