The type of codon that would lead to the placement of a specific amino acid, such as leucine, into the polypeptide sequence is the "anticodon."
Anticodons are the set of three nucleotides located at the base of a tRNA (transfer RNA) molecule that are complementary to the mRNA (messenger RNA) codons, allowing the correct amino acid to be placed into the polypeptide chain's correct position.
Codons are the sequence of three nucleotides in a strand of mRNA (messenger RNA) that code for a specific amino acid. Amino acids, on the other hand, are the building blocks of proteins; these proteins are created by combining a chain of amino acids with peptide bonds.
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1. Draw an arrow on the diagram below to show the direction of the force of gravity on the
mouse.?
The semitendinosus muscle is innervated by the ______ nerve. a. coxal b. femoral c. patellar d. tibial portion of the sciatic.
The semitendinosus muscle is innervated by the tibial portion of the sciatic nerve.
The semitendinosus muscle is innervated by the tibial portion of the sciatic nerve. The sciatic nerve is the largest nerve in the body and is composed of two main branches, the tibial nerve and the common fibular (peroneal) nerve. The tibial portion of the sciatic nerve innervates the hamstrings muscles, including the semitendinosus muscle, which is located in the posterior thigh. The coxal nerve, femoral nerve, and patellar nerve do not innervate the semitendinosus muscle.
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Most of what we know about the interior of the Earth comes from the study of seismic waves from earthquakes. Primary waves (P-waves) are compressional waves that are longitudinal in nature while secondary waves (S-waves) are shear waves that are transverse waves. The graph shows the velocity of both waves as they pass through Earth's interior. What do these two waves have in common regarding velocity?
When traveling through various mineral types, Primary waves have a higher velocity than waves. Primary waves can pass through liquids, solids, and gases, whereas secondary waves can only pass through solids.
How primary waves help in study of interior of earth?It is now possible to track fault slip in real time during a large earthquake. People can be warned seconds to minutes before a strong earthquake occurs. High-speed trains can be stopped peacefully. Warning networks are still in the works.
The waves can be analyzed to learn about faulting on a microscale. The interaction of the shallow ground with the strong waves is studied on a regular basis. When there is a lot of shaking, the interaction becomes nonlinear. As a result, the amplitude and characteristics of future severe shaking are routinely predicted.
What is earthquake ?An earthquake (also known as a quake, tremor, or temblor) is the shaking of the Earth's surface caused by a sudden release of energy in the Earth's lithosphere, which produces seismic waves. Earthquakes can range in intensity from those that are so minor that they are not felt to those that are powerful enough to propel objects and people into the air, damage critical infrastructure, and devastate entire cities. The frequency, type, and size of earthquakes experienced in a given area are referred to as its seismic activity. Seismicity at a specific location on Earth is defined as the average rate of seismic energy release per unit volume. Tremor is also used to describe non-earthquake seismic rumbling.
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vitamins often act as them______ or function as components of themThese types of molecules interact directly with _____to either allow the reaction to occur or by making the reaction occur efficiently For example, the vitamin _______is used in the production of NAD Recall that NAD* helps carry high-energy electrons to the electron transport chain to generate ATP. This means that NAD+ functions as an)______enzyme(s)niacincoenzyme(s)riboflavin
Vitamins frequently serve as coenzymes or as their constituent parts.the vitamin is riboflavin.
Vitamins are essential organic compounds that cannot be produced in sufficient amounts by the body, so they must be obtained from the diet. They play a crucial role in metabolic processes such as the formation of red blood cells, immune system function, and neurological function.
The human body requires 13 vitamins: A, C, D, E, K, and eight B vitamins, including riboflavin and niacin.
Coenzymes are organic molecules that help enzymes catalyze reactions. They are not enzymes, but they work with enzymes to ensure that reactions proceed quickly and efficiently.
They are similar to vitamins in that they cannot be synthesized by the body and must be obtained through the diet. Some examples of coenzymes are NAD+, FAD, and Coenzyme A.
NAD+ stands for nicotinamide adenine dinucleotide, which is a coenzyme found in cells. It helps cells generate energy and is involved in many metabolic processes.
NAD+ functions as a shuttle for high-energy electrons in the process of respiration, transferring them from other molecules to oxygen, which then generates ATP.
NAD+ is made up of two nucleotides joined by phosphate groups, and it requires niacin and riboflavin to be synthesized.
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La estructura de la membrana es selectivamente permeable, por tal razón:
The cell membrane is selectively permeable because substances do not pass through it indiscriminately. This means that only selective molecules pass through it. So the correct answer choice is option (B).
Selective permeability of a cell membrane refers to its ability to distinguish between different types of molecules, allowing only some molecules through while blocking others. A cell membrane is called selectively permeable because it allows only specific molecules to pass through. Only specific molecules, such as water and gas molecules, can pass directly through the cell membrane. It stops the flow of other molecules towards the two sides. Many large molecules like glucose and other sugars cannot do this. Water can pass between lipids. The most common example is the phospholipid bilayer cell membrane that surrounds every cell in our body.
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Complete question:
The membrane structure is selectively permeable, for this reason:
A) It is permeable only during certain stage of the cell division.
B) It allows only selective molecules to pass through it.
C) It allows only water to pass.
D) It is made up of lipids.
A change in the gene pool due to chance results in ________.
a) natural selection
b) environmental variation
c) a large gene pool
d) genetic drift
d) genetic drift. A change in the gene pool due to chance results in genetic drift.
Genetic drift: what is it?Allele frequencies in a population can shift from generation to generation owing to random events, which is known as genetic drift. To be more precise, genetic drift is changed as a result of "sampling error" while choosing the alleles for the following generation from the gene pool of the current generation.
Is genetic drift a result of natural selection?Contrary to natural selection, genetic drift uses a completely random method to alter the population's genetic composition. Genetic drift is a mechanism of evolution, but it does not lead to adaptations. Read more about genetic drift's mechanism and sampling mistakes.
Is ambient genetic drift possible?Hence, environmental factors can have an impact on or act as a mediator of genetic drift and gene flow, which are neutral or non-adaptive evolutionary processes.
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you are anxious to help teenagers fall asleep earlier in the evening. possible (but not necessarily recommended) solutions might include which of the following?
If you're anxious to help teenagers fall asleep earlier in the evening, possible solutions might include reducing their exposure to electronics in the evening, sticking to a consistent sleep schedule, etc.
What are the possible solutions to fall asleep?The possible (but not necessarily recommended) solutions include encouraging relaxation activities before bed, and limiting caffeine intake in the afternoon and evening. Additionally, you can encourage them to sleep in a dark, quiet, and cool environment.
Along with the above tips, there are certain measures one can take to help teenagers fall asleep earlier in the evening. Reducing their exposure to electronics in the evening. Encourage relaxation activities before bed. Limiting caffeine intake in the afternoon and evening. Sticking to a consistent sleep schedule. Encouraging them to sleep in a dark, quiet, and cool environment.
These measures will not only improve the sleep patterns of teenagers but also promote better health and well-being. It will also keep them refreshed throughout the day and promote good sleep habits.
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an individual is running in a race. what effects would be due to the sympathetic nervous system? select all that apply. multiple select question. constriction of blood vessels to tissues not involved in running. increased secretion of insulin constriction of pupils increased gastric secretions dilation of respiratory passages increased heart rate decreased urine production
An individual is running in a race, the effects that would be due to the sympathetic nervous system are: constriction of blood vessels to tissues not involved in running, increased secretion of insulin, constriction of pupils, increased gastric secretions, dilation of respiratory passages, increased heart rate, and decreased urine production. The correct option is all of the above.
The sympathetic nervous system plays a role in the response of an individual running in a race. The sympathetic nervous system can cause a variety of effects in the body, including constriction of blood vessels to tissues not involved in running, increased secretion of insulin, constriction of pupils, increased gastric secretions, dilation of respiratory passages, increased heart rate, and decreased urine production.
The sympathetic nervous system is responsible for the body's "fight-or-flight" response, which is an automatic response to a perceived or real threat. In the case of a race, this response prepares the body to perform at its highest level. When the sympathetic nervous system is activated, the body releases stress hormones such as epinephrine and norepinephrine.
These hormones act on the body to cause vasoconstriction, or narrowing of blood vessels and increased secretion of insulin, which helps the body to use glucose as fuel. The sympathetic nervous system also causes constriction of the pupils, which improves visual focus and can help the individual to concentrate on the race.
It increases gastric secretions to aid digestion and causes dilation of the respiratory passages to allow for increased oxygen intake. The increased heart rate increases the amount of blood pumped through the body to ensure that the muscles have enough oxygen and fuel for the duration of the race.
Finally, the decreased urine production helps to conserve water for the duration of the race. In summary, the sympathetic nervous system is responsible for a variety of responses in the body when an individual is running in a race.
These responses include constriction of blood vessels to tissues not involved in running, increased secretion of insulin, constriction of pupils, increased gastric secretions, dilation of respiratory passages, increased heart rate, and decreased urine production. These responses are designed to help the individual to perform at their highest level during the race.
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For many years, humans have used a variety of techniques that have influenced the genetic makeup
of organisms. These techniques have led to the production of new varieties of organisms that possess
characteristics that are useful to humans. Identify one technique presently being used to alter the
genetic makeup of an organism, and explain how humans can benefit from this change. Your answer
must include at least:
the name of the technique used to alter the genetic makeup
• a brief description of what is involved in this technique
one specific example of how this technique has been used
• a statement of how humans have benefited from the production of this new variety of organism
.
Overall, genetic engineering has allowed humans to produce new varieties of organisms that possess desirable traits, leading to numerous benefits in agriculture, medicine, and other fields.
What is genetic makeup?Genetic makeup refers to the complete set of genes or genetic information present in an organism's DNA. It determines an organism's physical and behavioral characteristics, including traits such as eye color, height, susceptibility to certain diseases, and other hereditary features. Genetic makeup is inherited from an organism's parents, with half of an individual's genetic makeup coming from their mother and the other half from their father. However, genetic makeup can also be influenced by environmental factors such as exposure to certain chemicals, radiation, or diet.
Here,
One technique presently being used to alter the genetic makeup of an organism is genetic engineering, also known as genetic modification or gene editing. This technique involves the deliberate insertion, deletion, or modification of an organism's genes in a laboratory, using tools such as CRISPR/Cas9. Humans have benefited from the production of genetically modified crops in several ways. First, they provide higher yields of food, helping to feed a growing population. Second, they reduce the need for pesticides and herbicides, leading to lower costs and less environmental damage. Third, they can improve the nutritional value of food, such as by increasing the amount of vitamins and minerals in crops.
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how many total offspring will be produced by individuals in age class 2? age (x) no. alive survivorship ( lx ) mortality ( q x ) survival rate ( s x ) fecundity ( b x ) 0 200 1.0 0.5 0.5 0 1 100 0.5 0.1 0.9 1 2 90 0.45 0.7 0.3 10 3 27 0.135 1.0 0 1 4 0 0 how many total offspring will be produced by individuals in age class 2? 100 1000 1027 0 900
The individuals of the age class 2 will produce 900 total offspring.
It is determined using the following method. The number of total offspring produced by individuals in age class 2 can be determined using the following formula:
Offspring = lx bx where lx is the number of individuals that are alive in a particular age group and bx is the number of offspring produced per female of that age group.Using the table, the lx for age class 2 is 90 and the bx for age class 2 is 10.Using the formula, we have:Offspring = lx bx= 90 × 10= 900. The individuals of age class 2 will produce 900 total offspring in their lifetime.
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Which phrase best defines the term homologous structures? structures that are so similar that they imply a common ancestor O structures that have the same features structures that had a function in an ancestor but don't have that function today O structures that have the exact same features and functions
Which of the following lists the levels of biological organization in order from simplest to most complex?A.~human, heart, cardiovascular system, cardiac muscle, cellB. ~heart, human, cell, cardiac muscle, cardiovascular systemC. ~cardiac muscle, cell, human, heart, cardiovascular systemD. ~cell, heart, human, cardiovascular system, cardiac muscleE. ~cell, cardiac muscle, heart, cardiovascular system, human
The biological organization includes seven levels: atoms, molecules, organelles, cells, tissues, organs, and systems. Hence, the correct option is D. cell, heart, human, cardiovascular system, and cardiac muscle.
What is the biological organization?The biological organization is the grouping of living organisms from smallest to largest, most basic to most complex. These groupings of life exist in a hierarchy of complexity, with each level constructed on the one before it.
The different levels of the biological organization include:
Atoms: The most basic and smallest unit of matter.
Molecules: A collection of atoms that combine together through a chemical bond.
Organelles: These are functional structures that are responsible for cell metabolism, energy, and reproduction.
Cells: The basic functional and structural unit of all living organisms.
Tissues: They are groups of cells that have similar functions, structures, and characteristics.
Organs: They are groups of tissues that have similar functions, structures, and characteristics.
Organ systems: It is a group of organs that work together to perform a specific function in the body.
The correct option is D. cell, heart, human, cardiovascular system, and cardiac muscle.
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Suppose you have a DNA fragment you would like to insert into the pSAP plasmid. The fragment has PstI and EcoRI restriction endonuclease sites near the 5' end and HindIII and Smal restriction endonuclease sites near the 3' end. Choose the best restriction endonuclease(s) to digest the both the DNA fragment and pSAP. Thank you for all the help everyone!!! :)
To digest both the DNA fragment and pSAP plasmid, we will need restriction endonucleases that recognize the same restriction sites present in the DNA fragment and the plasmid. Based on the information provided, the best combination of restriction endonucleases would be PstI and HindIII.
PstI recognizes and cuts DNA at the PstI site, which is present near the 5' end of the DNA fragment and also in the pSAP plasmid. HindIII recognizes and cuts DNA at the HindIII site, which is present near the 3' end of the DNA fragment and also in the pSAP plasmid.
By digesting both the DNA fragment and pSAP with PstI and HindIII, you will generate compatible sticky ends that can be ligated together, allowing for the insertion of the DNA fragment into the pSAP plasmid.
Therefore, the best combination of restriction endonucleases would be PstI and HindIII.
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What human cells would have been the easiest to use, if we wanted to get our DNA? Why?
Answer:
The human cells that would be the easiest to use to obtain DNA are white blood cells (leukocytes). This is because white blood cells have a nucleus that contains DNA, while other cells such as red blood cells do not. White blood cells can be easily extracted from a blood sample, and the DNA can be extracted and purified using standard laboratory techniques. In addition, white blood cells are relatively abundant in the bloodstream and can be collected without the need for invasive procedures, making them a convenient and non-invasive source of DNA for various genetic testing and research purposes.
Explanation:
proteins that lack a sorting signal remain as permanent residents of which part of a eukaryotic cell?
The proteins that lack a sorting signal remain as permanent residents of the cytosol of a eukaryotic cell.
What is a eukaryotic cell?A eukaryotic cell is an organism that is more complicated than a prokaryotic cell. Eukaryotes have organelles, including a nucleus. They are the most diverse category of living organisms and have characteristics that range from single-celled creatures to multicellular creatures.
The cytosol is the fluid inside the cell's membrane, including the organelles inside the cell. Proteins that lack a sorting signal lack the signal sequences that direct them to specific cellular locations, such as the nucleus or mitochondria, and instead remain in the cytosol. The cytosol is home to a large number of proteins that help maintain cell structure, control cellular metabolism, and serve as the site of protein synthesis. Proteins such as cytoskeletal components, chaperones, and signaling proteins are all present in the cytosol.
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What happens to the oxidizing agent in an oxidation-reduction reaction?A. It is oxidized as it gains electrons.B. It is oxidized as it loses electrons.C. It is reduced as it gains electrons.D. It is reduced as it loses electrons.
Compare the pectoral and pelvic girdles by choosing appropriate descriptive terms from the key.
a. flexibility most important
b. massive
c. lightweight
d. insecure axial and limb attachments
e. secure axial and limb attachments
f. weight -bearing most important
Pectoral: a. flexibility, c. light weight, d. shaky axial and limb attachments. Massive, secure axial and limb attachments are present in the pelvis (b). Weight bearing.
Because to its shaky linkages to the axial and limb systems, the pectoral girdle places a high priority on flexibility. Also, the joint is lightweight. Given that its primary duty is to support weight, the pelvic girdle is significantly more stable than mobile.
The axial and appendicular skeletons are the two major divisions of the skeletal system in humans. The body's primary axis is covered by 80 bones that make up the axial skeleton.
Axillary skeleton is made up of the skull, spinal column, sternum, and ribs. The appendicular skeleton is made up of the bones in the limbs as well as their girdles (pelvic and pectoral).
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when hemoglobin is bound to oxygen, it is represented as
When hemoglobin is bound to oxygen, it is represented as Oxyhemoglobin.
The symbol for hemoglobin when it is bonded to oxygen is [tex]HbO_2[/tex]. Four subunits make up this molecule, and each one has a heme group that can attach to a single oxygen molecule. The hemoglobin molecule's shape changes when oxygen binds to one of the heme groups, making it simpler for the other heme groups to bind oxygen as well. Cooperative binding is a process that enables hemoglobin to effectively carry oxygen from the lungs to the tissues. When hemoglobin releases oxygen in the tissues, the molecule's shape changes once more, decreasing the likelihood that oxygen will bind and encouraging the release of more oxygen molecules.
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Assignment: 04.05 Ancient Greece - Empire of Alexander
The sources mentioned, "Map of Alexander's empire" and "Alexander by the numbers," provide some evidence of Alexander's achievements and influence during his lifetime, which contributes to the argument that he was a great leader.
How can you say Alexander was great?The map of Alexander's empire shows the vast extent of his conquests, which spanned across much of the known world at that time. Alexander was able to defeat powerful empires such as the Persians, which demonstrated his military prowess and strategic genius. His empire also facilitated cultural exchanges between different regions, leading to spread of Hellenistic culture and knowledge.
"Alexander by the numbers" provides numerical data that further emphasizes the scale of Alexander's achievements. Alexander led his army on a march of over 22,000 miles, established over 70 cities, and conquered territories that encompassed over 5 million square miles of land.
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Which of the following sequences in double-stranded DNA is most likely to be recognized as a cutting site for a restriction enzyme?
(A) AAGGTTCC
(B) GGCCCCGG
(C) ACCATGGT
(D) AAAATTTT
The following sequences in double-stranded DNA are most likely to be recognized as a cutting site for a restriction enzyme is ACCATGGT.
DNA restriction enzymes recognize specific sequences of bases and act as molecular scissors that cut DNA molecules at a specific site. Which of the following sequences in double-stranded DNA is most likely to be recognized as a cutting site for a restriction enzyme? The restriction enzymes cut double-stranded DNA at specific nucleotide sequences. The recognition sequence is typically four to eight nucleotides long and is usually palindromic. Palindromic sequences are the same when read forward and backward, making them symmetrical. In the sequences mentioned above, ACCATGGT is most likely to be recognized as a cutting site for a restriction enzyme. This is because it is the only sequence that is palindromic, meaning it reads the same forward and backward, which is a characteristic of a restriction site. The other sequences are not palindromic and are therefore less likely to be recognized as cutting sites for a restriction enzyme.
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glyceraldehyde-3-phosphate and 3-phosphoglycerate are three-carbon molecules produced during the calvin cycle. (true or false)
The statement is False.
Glyceraldehyde-3-phosphate (G3P) and 3-phosphoglycerate (3PG) are three-carbon molecules produced during the Calvin cycle, which is the set of light-independent reactions that occur in the stroma of the chloroplasts during photosynthesis.
During the Calvin cycle, carbon dioxide is fixed into organic molecules, including G3P, which can be used to produce glucose and other sugars. 3PG is an intermediate in the Calvin cycle, produced during the process of carbon fixation. The Calvin cycle is a crucial process for producing the organic compounds necessary for the growth and survival of plants, and ultimately, for sustaining life on Earth.
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Read each question carefully. Write your response in the space provided for each part of each question. Answers must be written out in paragraph form. Outlines, bulleted lists, or diagrams alone are not acceptable and will not be scored. Enolase is an enzyme that catalyzes one reaction in glycolysis in all organisms that carry out this process. The amino acid sequence of enolase is similar but not identical in the organisms. Researchers purified enolase from Saccharomyces cerevisiae, a single-celled eukaryotic yeast that grows best at 37°C, and from Chloroflexus aurantiacus, a bacterium that grows best at the much higher temperature of 55°C. The researchers compared the activity of purified enolase from the two organisms by measuring the rate of the reaction in the presence of varying concentrations of substrate and a constant amount of each enzyme at both 37°C and 55°C. (a) Depending on the organism, the optimal pH for enolase to catalyze its reaction is between 6.5 and 8.0. Describe how a pH below or above this range is likely to affect enolase and its catalytic ability. (b) Identify the appropriate negative control the researchers most likely used when measuring the reaction rate in the presence of each organism’s enolase. (c) The researchers predict that for any particular concentration of substrate, the C. aurantiacus enolase-catalyzed reaction is more rapid at 55°C than at 37°C. Provide reasoning to justify the researchers’ prediction.
The answers about enoalase activity from Chloroflexus aurantiacus and Saccharomyces cerevisiae:
a) The pH affects the tertiary structure of the enzyme and its active site.
b) An appropriate negative control would be a reaction mixture that contains all the components except for the enolase.
c) The reason why the C. aurantiacus enolase-catalyzed reaction is more rapid at 55°C is due to its optimal temperature of function.
Experiments about enolasea) A pH below or above this range is likely to affect enolase and its catalytic ability because it can denature the enzyme and cause it to become non-functional. This is because a change in the pH affects the tertiary structure of the enzyme and its active site. This can alter the conformation of the active site and impair the binding of the enzyme and its substrate, making it unable to catalyze the reaction.
b) In an experiment, a negative control is a group or sample that does not receive the treatment or variable that is being tested. The appropriate negative control the researchers most likely used when measuring the reaction rate in the presence of each organism’s enolase is one without any substrate. This is to ensure that the reaction is not occurring due to the presence of the enzyme alone.
c) Enzymes have an optimal temperature at which they function most effectively, and this temperature varies between different organisms and enzymes. For the C. aurantiacus enolase, the optimal temperature for the function is likely to be closer to 55°C, the temperature at which the organism grows best.
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which is true about essential fatty acids? which is true about essential fatty acids? they are found primarily in deep-fried foods. the body can make them from nonessential fatty acids. they are linked to increased risk of heart disease. they are involved in inflammatory responses and nerve transmission within the body.
Answer: Essential fatty acids are involved in inflammatory responses and nerve transmission within the body. The correct option is d.
Explanation:
Essential fatty acids are unsaturated fats that are important for the health of our bodies. They cannot be made by our body and therefore we must consume them through our diet. They are divided into two categories, namely Omega-3 and Omega-6 fatty acids.
Essential fatty acids play a crucial role in several bodily functions. They are essential for cell growth and division, brain function, hormone production, immune system function, and blood clotting. They are also involved in inflammatory responses and nerve transmission within the body.
Essential fatty acids are also linked to a lower risk of heart disease. It is not true that essential fatty acids are found primarily in deep-fried foods. Deep-fried foods contain unhealthy fats that can be harmful to our bodies.
Essential fatty acids are found in foods such as fatty fish, nuts and seeds, avocado, and olive oil. It is also not true that the body can make them from nonessential fatty acids.
As mentioned earlier, essential fatty acids cannot be made by our body and must be consumed through our diet.
Thus the correct option is D. Essential fatty acids are involved in inflammatory responses and nerve transmission within the body.
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which activity negatively impacts biodiversity and the sustainability of an ecosystem?
Answers:
Introduction of invasive species
Explanation:
The invasive species makes competition for food much harder for the native species, which causes their numbers to decline. As a result, biodiversity and ability to sustain itself takes a sharp nosedive, even after a short amount of time after the invasive species is intoduced. An example of this is kudzu.
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Answer:
The main direct cause of biodiversity loss is land use change (primarily for large-scale food production) which drives an estimated 30% of biodiversity decline globally. Second is overexploitation (overfishing, overhunting and overharvesting) for things like food, medicines and timber which drives around 20%.
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The green anole uses the products of cellular respiration when it: A) Stores energy; B) grows a new tail; C) captures invertebrates; D) breaks down fruits
Answer: A) Stores energy.
Vertebrate embryos all develop in similar ways. Which conclusion can be drawn from this observation? O Many vertebrates are descended from one another. O There is frequent gene flow between vertebrates. O Vertebrates share a common ancestor. O Vertebrates live in similar habitats.
The conclusion that can be drawn from this observation is that vertebrates share a common ancestor. That is option C.
What is a vertebrate?A vertebrate can be defined as an organism that has backbone and is able to give birth to their young ones alive.
There are different types of vertebrate and they include the following:
fish, amphibians, reptiles, mammals and birds.In comparative embryology, the embryos of two different organisms are observed to have similar features because they share common ancestor.
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During ____________ chemicals and cells that attack and destroy pathogens gather around the area of injury or infection?
a)inflammation
b)cellular respiration
c)mitosis
d)cytokinesis
sunny has decided to create a community garden on a patch of abandoned land near the main field office. the garden will include plants to help stabilize the soil. the garden and the plants to help stabilize the soil are examples of
Sunny has decided to create a community garden on a patch of abandoned land near the main field office. The garden will include plants to help stabilize the soil. The garden and the plants to help stabilize the soil are examples of ecological restoration.
Ecological restoration is the practice of rebuilding, renewing, and rehabilitating natural areas that have been disturbed, degraded, or destroyed. Ecological restoration efforts can include planting trees or other vegetation, repairing soil erosion, and restoring natural habitats for wildlife.
The purpose of ecological restoration is to restore ecological health and improve the quality of life for people living in the area. Therefore, Sunny's community garden is an excellent example of ecological restoration.
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a child believes that he is the long-lost son of a very wealthy couple. his blood type is O. his mothers blood type is type A and his fathers is type B. could he be their son? use data from a punnett square to support your answer.
Answer:
Yes one A and one B can make an O
Yes, a mother with blood type A and a father with blood type B can give birth to a son with blood type O.
what nutrient is the building block for bones, connective tissue, skin, blood and other vital organs and helps with muscle development and tissue repair?
The nutrient that is the building block for bones, connective tissue, skin, blood, and other vital organs, and helps with muscle development and tissue repair is protein.
Proteins are complex molecules made up of smaller units called amino acids. Amino acids are the building blocks of protein, and the body uses them to build and repair tissues, including bones, connective tissue, skin, and organs.
In addition to their structural roles, proteins also play a critical role in muscle development and repair. When we exercise, our muscles experience small amounts of damage, and the body uses amino acids from protein to repair this damage and build new muscle tissue.
Protein can be found in a variety of foods, including meat, poultry, fish, eggs, dairy products, beans, nuts, and seeds. It is important to consume adequate amounts of protein in the diet to support optimal health and function of the body.
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