Answer:
B. Selective breeding uses two horse parents with the desired traits to increase the chances of passing the desired traits on to offspring.
Answer:
B. Selective breeding uses two horse parents with the desired traits to increase the chances of passing the desired traits on to offspring.
Explanation:
Essentially, horse breeders pick two animals that possess the desired characteristics like speed, stamina and nimbleness, and then interbreed them to increase the probability of their progeny inheriting those qualities. This process gradually leads to the formation of particular horse breeds that are especially proficient in the sport of racing.
Identify the signs that indicate an emergency exists in the video you just watched. Select 3 answers
The following are some typical indicators of an emergency. Unexpected or severe pain Violent pain going through a person, especially in the stomach, head, or casket, may indicate a medical emergency.
Urgent scenario may exist if someone is bleeding heavily and the bleeding won't stop. Having trouble breathing A person who is having problems breathing may be experiencing a medical emergency. This could be the result of an asthma episode, a sympathetic reaction, or other factors. loss of information Someone losing consciousness or losing their memory might be a symptom of an emergency.
Seizures A seizure might be an indication of a serious medical condition. stroke warning signs Sudden impassivity, weakness or chinking on one side of the body, speech difficulties, or unexpected bewilderment may be symptoms of a stroke.
Painful casket It may be an indication of a heart attack if someone is experiencing chest discomfort, particularly if it is accompanied with shortness of breath, nausea, or perspiration.
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Which of the following best illustrates the change in the frequencies of the A and a alleles from generation 1 to generation 2 and to future generations, assuming Hardy-Weinberg equilibrium is present after generation 1 ?
Future generations will have the same frequencies of the A and a alleles as generation 2. Individuals with the aa genotype could be produced.
Generation 1Generation 2Generation n AA.67 .87. 87 aa.33 .13 .13
Based on the given information, the best illustration of the change in the frequencies of the A and a alleles from generation 1 to generation 2 and future generations, assuming Hardy-Weinberg equilibrium is present after generation 1, would be:
Generation 1:
AA = 0.67,
aa = 0.33
Generation 2:
AA = 0.87,
aa = 0.13
Future generations:
AA = 0.87,
aa = 0.13
This means that the frequency of the A allele (represented by AA) increased from generation 1 to generation 2 and remains the same in future generations. The frequency of the a allele (represented by aa) decreased from generation 1 to generation 2 and also remains the same in future generations. This implies that there is no further change in allele frequencies beyond generation 2, and individuals with the aa genotype can still be produced in future generations.
Therefore, the correct answer is :
Generation 1:
AA = 0.67,
aa = 0.33
Generation 2:
AA = 0.87,
aa = 0.13
Future generations:
AA = 0.87,
aa = 0.13
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Many ectotherms use behavioral tactics (such assun-seeking and shade-seeking) to maintain their bodytemperatures within selected bounds. Behavioralthermoregulation requires an ability to detect spatialthermal heterogeneity and to move to favorable sites.Accordingly, biologists have assumed that the (immobile)embryonic stage cannot thermoregulate behaviorally
a. Evaluate the passage above to determine the specific characteristics of embryos thatbiologists assume to provide a barrier to behavioral thermoregulation. Explain. (2 points
a. The evaluationof the passage above to determine the specific characteristics of embryos that biologists assume to provide a barrier to behavioral thermoregulation are immobility.
According to the passage, biologists have assumed that the (immobile) embryonic stage cannot thermoregulate behaviorally. This means that embryos are unable to use behavioral tactics like sun-seeking and shade-seeking to maintain their body temperatures within selected bounds. Behavioral thermoregulation requires an ability to detect spatial thermal heterogeneity and to move to favorable sites. Thus, because embryos are immobile, they cannot move to favorable sites, and this lack of mobility creates a barrier to behavioral thermoregulation. The concept of behavioral thermoregulation refers to the ability of animals to control their body temperature by changing their behavior.
Many ectotherms, for example, use behavioral tactics like sun-seeking and shade-seeking to maintain their body temperatures within selected bounds. These animals are able to detect spatial thermal heterogeneity and move to favorable sites, which helps them to avoid extremes of temperature. However, embryos cannot do this because they are immobile, and this immobility creates a barrier to behavioral thermoregulation. Thus, biologists assume that embryonic stages cannot thermoregulate behaviorally because they lack the necessary mobility to move to favorable sites.
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Which of the following is the smallest biological structure that would most likely be visible with a standard research-grade light microscope?A. human cheek cellB. chloroplastC. ribosomeD. microfilament
The smallest biological structure that would most likely be visible with a standard research-grade light microscope is a human cheek cell. Thus, option A is correct.
A light microscope is a tool that magnifies the image of a specimen by bending rays of visible light. This microscope is also referred to as an optical microscope or a photon microscope. A light microscope's magnification capacity is around 1,000x.
Human cheek cells have a diameter of about 10 to 30 µm, which makes them visible under a light microscope. To observe these cells, a sample of the cheek is taken and a stain is applied. The sample is then placed on a slide and viewed under a light microscope.
In light of this, the smallest biological structure that would most likely be visible with a standard research-grade light microscope is the human cheek cell.
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Please answer this. I will give 46 points to whoever has the right answer.
The pathway of blood flow includes: Superior Vene cava (Top), Inferior Vene cava (Bottom)→Right atrium→ Tricuspid valve→ Right ventricle → Pulmonary valve→ Pulmonary artery→ Lungs → Pulmonary veins →left atrium→ Mitral valve → Left ventricle → Aortic valve→ Aorta → The entire body.
What is Aorta?The aorta is the largest artery in the human body that originates from the left ventricle of the heart and carries oxygenated blood to all parts of the body. It is a thick, elastic, muscular blood vessel that branches out into smaller arteries throughout the body.
The ascending aorta, aortic arch, thoracic aorta, and abdominal aorta are the four major sections of the aorta. The aortic arch bends over the top of the heart and gives rise to the major branches of the aorta. The thoracic aorta runs through the chest, and the abdominal aorta runs through the abdomen. The abdominal aorta ends at the level of the fourth lumbar vertebra, where it splits into the left and right common iliac arteries that supply blood to the legs.
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a distinct form or race of a plant or animal species occupying a particular habitat are called?
A distinct form or race of a plant or animal species occupying a particular habitat is called a subspecies.
Subspecies are defined as geographically or ecologically distinct populations within a species that have evolved morphological or physiological differences from other populations of the same species.
Subspecies are often identified based on differences in physical appearance, such as size, coloration, or markings, as well as variations in behavior or genetic makeup. They can arise through a variety of processes, including geographic isolation, adaptation to local environmental conditions, or genetic drift.
Subspecies can play an important role in conservation and management efforts, as they may have unique adaptations and ecological requirements that differ from other populations of the same species. Therefore, understanding the distribution and characteristics of subspecies can be important for making informed decisions about their conservation status and management needs.
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list another trait that you would expect to vary with beak length in a bug population.
Answer: Body Size
Explanation:
Another trait that could potentially vary with beak length in a bug population is body size. Bugs with longer beaks may require a larger body size to support and operate their longer beaks efficiently, while bugs with shorter beaks may have a smaller body size as they do not require as much energy to operate their shorter beaks.
Why might tortoises grow to such huge sizes on isolated islands, such as the Galapagos, but not elsewhere?
Tortoises are a collection of terrestrial reptiles that range from plains to woods and include species such as the Greek and Galapagos tortoises. Some species developed huge body proportions with shell lengths surpassing one metre, while others are only 6-8 centimetres long. Despite naturalists' keen interest since Darwin's time, the development of gigantism in turtles remains a mystery.
According to new study, giant tortoises may not be as large as originally thought due to their island lifestyle. The development of giant tortoises may not have been connected to islands as previously believed. Researchers from Argentina and Germany have given the most complete family tree of extinct and living tortoises to date in a first-of-its-kind study. Giant tortoises are now only located on a few exotic islands, most notably the Galápagos Islands, Aldabra Atoll in the Seychelles, and Mauritius. Some can develop to be 1.3m tall and weigh up to 300kg. The Galápagos giant tortoise has 14 recognised varieties, with one more yet to be identified. Thirteen of these species are still living today, while the Pinta Island turtle became extinct in 2012 due to habitat loss.
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the _____ hypothesis states that long term environmental unpredictability led to morphological and behavioral adaptations. group of answer choices a. savannah b. turnover c. pulse variability d. selection aridity
The pulse variability hypothesis states that long-term environmental unpredictability led to morphological and behavioral adaptations.
What is the pulse variability hypothesis? The pulse variability hypothesis is a concept that describes how environmental variability affects life on earth. It states that changes in the natural environment may not always be gradual, but instead may occur in pulses, with periods of stability interrupted by short periods of intense variation.
Pulse variability hypothesis refers to the idea that the natural environment is not always in a state of gradual change but, rather, is subject to punctuated shifts where long-term environmental unpredictability results in morphological and behavioral adaptations.
The hypothesis provides an alternative perspective to the traditionally held view of gradual and constant environmental change.
What is environmental unpredictability? Environmental unpredictability refers to an event in which an ecosystem's climate changes abruptly and unpredictably due to environmental factors. Changes to the environment can lead to shifts in populations and in the composition of entire ecosystems.
This kind of environmental unpredictability is one of the major threats to biodiversity.
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Arrange the following in order from smallest to largest: fascicle, myofilament, muscle cell, myofibril, sarcomere
Myofilament, myofibril, muscle fiber, fascicle, muscle
The order from smallest to largest is myofilament, myofibril, sarcomere, fascicle, and muscle cell.
Myofilaments are made up of the proteins actin and myosin, which are the smallest components of the muscle.
Myofibrils are made up of a bundle of myofilaments and are the next smallest.
Sarcomeres are the next smallest and are made up of alternating thick and thin filaments that overlap to create a repeating pattern.
Fascicles are the next smallest and are a bundle of muscle fibers.
Lastly, muscle cells are the largest and contain multiple fascicles.
Thus, the order, from smallest to largest is Myofilament, myofibril, sarcomere, fascicle, and muscle cell.
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what is the function of the palatine process of the maxilla?
Between the maxillae and the pterygoid process of the sphenoid bone is the palatine bone, a pair of bones. It contributes to the construction of the three skull cavities; the orbits, nasal cavity, and oral cavity.
The components of the floor of the nasal cavity are provided by the horizontal plate of the palatine bone and the palatine bone's palatine process. Additionally, facial muscles can attach to the os palatinum.
The palatine cycle (Processus palatinus) of the maxilla is areas of strength for a cutting edge that emerges perpendicularly from the nasal surface of the maxilla, close to its ventral boundary; Through the palatine suture (Sutura palatine), it joins the opposing maxillary palatine process on the median plane.
The main functions of the maxilla include: ensuring the stability of the top teeth. reducing the skull's weight. boosting your voice's volume and pitch.
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color processing is best described by which of the following statements? color processing occurs in the retina alone. the color receptors bypass the thalamus on their way to the visual cortex. together the young-helmholtz theory and the opponent-process theory explain color processing. the colors we see result from activity in the thalamus.
The correct statement for describing color processing is "Together the Young-Helmholtz theory and the opponent-process theory explain color processing."
Color processing is the interpretation of the wavelength information of the light that enters the eyes. In this process, the light is separated into three primary colors: red, green, and blue. Afterward, the eyes' photoreceptor cells capture the color signal and transfer it to the visual cortex in the brain. The two significant theories that explain color processing are the Young-Helmholtz theory and the opponent-process theory.
The Young-Helmholtz theory suggests that the human eye possesses three distinct color receptors. The receptors, which are sensitive to red, green, and blue, operate together to generate the range of colors that humans can see. The theory states that the color that individuals see is determined by the ratio of stimulation between the three different types of receptors. This theory is also known as the trichromatic theory.
The opponent-process theory explains the formation of the color vision, stating that the human visual system has four unique color channels, which work in opposing pairs. The pairs consist of red-green, yellow-blue, black-white, and light-dark. Each channel is composed of two different colors that cannot be sensed at the same time. The colors are red/green, blue/yellow, and black/white.The two theories explain the process of color vision and have contributed significantly to research in the field. Together, the Young-Helmholtz theory and the opponent-process theory explain color processing.
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The highest concentration of life exists in the top 200 meters of ocean water. The most
important factor that influences this concentration of life is the
The highest concentration of life exists in the top 200 meters of ocean water. The most important factor that influences this concentration of life is the availability of sunlight.
Sunlight is one of the most important factors in the ocean that affects life. It provides energy to the plants and phytoplankton, which are the primary producers of the ocean. Because of this, they require sunlight for photosynthesis, which is the process that enables them to convert carbon dioxide and water into food. In turn, the primary consumers (zooplankton) feed on these primary producers and convert them into energy, which can then be consumed by higher-level consumers (fish, mammals, etc.).Without sunlight, life in the ocean would not exist. Therefore, the highest concentration of life exists in the top 200 meters of ocean water where sunlight is abundant.
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17. Which Of These Partial Proteins Was Most Likely Assembled By A Thermophile? A. Gly-Gly-Pro-Arg-Arg-Cys-Cys-Gly B. Cys-Met-Met-Arg-Asp-Asp-Asp-Pro C. Pro-Pro-Arg-His-Pro-Pro-Pro-Gly D. Met-Gly-Cys-Pro-Arg-Arg-Pro-Arg
Partial Proteins Was Most Likely Assembled By A Thermophile is Cys-Met-Met-Arg-Asp-Asp-Asp-Pro. The correct answer is B.
This partial protein was most likely assembled by a thermophile because it contains amino acids that have the ability to resist denaturing at high temperatures. At high temperatures, proteins are more stable and have increased thermodynamic stability.
For example, Taq polymerase, which is utilized in the polymerase chain reaction (PCR), was isolated from the thermophilic bacterium Thermus aquaticus.
The amino acid sequence of a protein can be used to infer its function, conformation, and origin. The amino acid sequence determines the protein's 3D structure, which is critical for its function. The protein's origin, on the other hand, is determined by the organism that produced it.
Therefore, the correct option is B. i.e. Cys-Met-Met-Arg-Asp-Asp-Asp-Pro .
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structures on the tongue that contain groupings of taste buds are called
Structures on the tongue that contain groupings of taste buds are called Fungiform papillae.
Fungiform papillae are small, mushroom-shaped structures found on the surface of the tongue in mammals, including humans. They are one of several types of papillae on the tongue and are most abundant on the front two-thirds of the tongue. Fungiform papillae contain taste buds, which are sensory organs that enable the detection of different flavors.
Taste buds are composed of specialized cells called taste receptor cells, which are responsible for detecting different types of taste, such as sweet, sour, salty, and bitter. These receptor cells are connected to nerve fibers that transmit signals to the brain, where they are interpreted as taste sensations. The number and distribution of fungiform papillae can vary between individuals and can affect a person's ability to taste different flavors.
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what is different in the cell cycle in a cancer cell? group of answer choices gap 1 and gap 2 get skipped dna synthesis happens twice normal checkpoints controlling each phase are overridden the normal checkpoints inhibit cell division
The cell cycle in a cancer cell is different in the sense that normal checkpoints controlling each phase are overridden. Therefore, the correct option is the third option, "normal checkpoints controlling each phase are overridden."
What is the cell cycle?The cell cycle refers to the processes that take place between the formation of a eukaryotic cell and its division into two daughter cells. During the cell cycle, several events occur, including the replication of DNA and the distribution of chromosomes to the daughter cells. A typical cell cycle has two main phases: interphase and cell division (mitosis and cytokinesis).
What is the difference between the cell cycle in a normal cell and a cancer cell?During the cell cycle, there are several checkpoints in a normal cell that regulate progression from one phase to the next. These checkpoints ensure that the DNA has been correctly replicated and that the cell is in the correct state to proceed to the next phase.However, in cancer cells, these checkpoints may not function correctly, resulting in abnormal cell proliferation.
This may occur when tumor-suppressing genes are mutated or when oncogenes are activated. The abnormal proliferation of cells in cancer can result in the formation of tumors, which may spread to other parts of the body if left untreated.In summary, the major difference in the cell cycle of a cancer cell is that the normal checkpoints controlling each phase are overridden.
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Someone help me please
Hypersecretion of thyroxine in the thyroid gland results in suppression of TSH (thyroid-stimulating hormone) from the pituitary gland.
Hyposecretion of cortisol in the adrenal glands results in an increase in the secretion of ACTH (adrenocorticotropic hormone) from the anterior pituitary gland.
What is function of adrenocorticotropic hormone?Adrenocorticotropic hormone (ACTH) is a hormone produced and secreted by the anterior pituitary gland in the brain. Its primary function is to stimulate the production and release of cortisol, a steroid hormone, from the adrenal cortex, which is the outer layer of the adrenal glands located above the kidneys.
ACTH is released in response to stress, low blood sugar levels, and other factors that signal the need for increased cortisol levels in the body. It acts on the adrenal cortex to increase the synthesis and release of cortisol into the bloodstream, which then helps the body cope with stress, regulate blood sugar levels, and maintain normal immune function.
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In a pond, algae (plant-like organisms) absorb
sunlight and the fish in the pond eat tadpoles.
These are both examples of how pond organisms
A get their energy
B escape their predators
C remove waste products
D produce new offspring
According to the question these are both examples of how pond organisms get their energy.
What is organisms?Organisms are living things that are made up of cells, have the ability to generate energy, and reproduce. Organisms are found in all different shapes and sizes and can be found on land, in water, and even in the air. All organisms are made up of one or more cells, the basic unit of life. Cells are able to take in energy and nutrients, and use these to produce energy and to grow and reproduce. Organisms use this energy to carry out activities such as moving, eating, and responding to the environment. Organisms can reproduce either through asexual or sexual reproduction. Asexual reproduction results in offspring that are identical to the parent, while sexual reproduction results in offspring with a combination of the characteristics of both parents. Organisms can be classified into different groups, such as plants, animals, fungi, and bacteria. All organisms interact with each other and the environment in which they live, and these interactions can affect their ability to survive and reproduce.
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which of the following statements accurately compares the atp synthase enzymes of chloroplasts and mitochondria?
ATP synthase enzymes are found in both mitochondria and chloroplasts, and they both produce ATP by chemiosmosis.
What features of mitochondria and chloroplast are similar and different?The mitochondria, or "powerhouses," of the cell, consume fuel molecules and produce energy during cellular respiration. Chloroplasts are found in both plants and algae. They are in responsible of gathering light energy, which is used to make carbohydrates during photosynthesis.
Which of the following statements concerning chloroplasts and mitochondria supports the endosymbiotic theory?Prokaryotes including bacteria, mitochondria, and chloroplasts all have circular DNA. This supports the Endosymbiotic Hypothesis, which postulates that the mitochondria and chloroplast in eukaryotic cells were formed by a significant amount of anaerobic bacteria consuming aerobic bacteria (prokaryotes) (prokaryote).
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Match the following statements with either Adrenal Medulla (Nervous System), Adrenal Cortex (Endocrine System) or Both.
Please help answer all of them if possible!!
Adrenal cortex - hormones secreted are cortisol and aldosterone, stimulated by ACTH from anterior pituitary to release hormones.
What are the functions of cortisol?Your adrenal glands create the glucocorticoid hormone cortisol, which is then released into the body.
Hormones are substances that communicate with your organs, skin, muscles, and other tissues through your blood to coordinate various bodily functions. These messages instruct your body on what to do when.
A particular class of steroid hormone is glucocorticoids. They regulate the metabolism of your muscles, fat, liver, and bones while reducing inflammation in all of your bodily tissues. The sleep-wake cycle is also impacted by glucocorticoids.
Explanation.Adrenal medulla- hormones stimulate fight or flight responses, tissue in middle of adrenal gland, hormones are epinephrine and norepinephrine, hormones respond to stress.
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What is the relationship between the direction of the ocean current and the coastal
climate?
Some currents take warm water away from the equator, influencing coastal climates near the poles. Others take colder water from the poles or the deep ocean and move it towards the equator, creating cooler coastal climates.
Which of these directly bind(s) to the promoter?
"The figure shows the operon. Letters from A to D indicates definite structures. Letter A indicates a region of the DNA which is bound by proteins to activate the transcription of a gene. Letter B indicates a region of DNA that initiates transcription. Letter C indicates an enzyme that produces primary transcript RNA. Letter D indicates different structures which control the rate of transcription."
The factors that bind directly to the promoter are RNA polymerase and transcription factors. A promoter is a DNA sequence that controls the rate of transcription of a gene by giving a binding site for RNA polymerase and transcription factors.
The term "promoter" applies to DNA sequences that are situated upstream of (toward the 5′ region of the sense strand) of the transcription initiation site, which is typically a few hundred base pairs upstream of the transcription start site in eukaryotes and prokaryotes. Promoters are a vital component of gene transcription regulation.
The mechanism of transcription initiation in eukaryotes is complex and necessitates the involvement of numerous protein factors. The following are the factors that bind to the promoter region directly: RNA polymerase, Transcription factors.
In bacteria, the operon is a series of contiguous genes that are transcribed under the control of a single promoter, which generates a single mRNA molecule, which is subsequently translated into individual polypeptides. The term "operon" is utilized to describe the entire transcriptional unit, which comprises an operator region, a promoter region, and a series of genes that are regulated by the operator.
Thus, the correct option is (C) RNA polymerase and transcription factors bind directly to the promoter region.
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True or false. All of your cells contain DNA molecules. What makes a brain cell different from a skin cell is that different genes are activated. 
Answer:
False
Explanation:
the rectus abdominus runs horizontally like a girdle is called
Answer:Transversus Abdominis
Explanation:
which type of organisms are prokaryotic and live in extreme environments such as hot springs, salt lakes, and deep ocean vents?
Archaea is a single-celled, prokaryotic form of life that is very different in form and function from bacteria.
Archaea are a group of microorganisms that are found in a wide range of habitats, including extreme environments such as hot springs, deep-sea vents, and salt flats. They are classified as one of the three domains of life, along with Bacteria and Eukarya.
Archaea are prokaryotes, meaning that they lack a nucleus and other membrane-bound organelles found in eukaryotic cells. They are characterized by their unique cell membrane structure, which is made up of ether-linked phospholipids instead of ester-linked phospholipids found in other organisms. Archaea have diverse metabolic pathways and play important roles in various ecological processes, such as carbon cycling and nitrogen fixation.
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The Turnover Pulse hypothesis states that _____ eaters faced high rates of extinction during the ice ages. a)Generalist b) insect c) fruit d) specialist
The Turnover Pulse hypothesis states that specialist eaters faced high rates of extinction during the ice ages. So the correct option is D.
The turnover pulse hypothesis is a scientific concept that hypothesizes the extinction of fauna during the Quaternary ice age as a result of climate change. The Turnover Pulse hypothesis proposes that climate change caused a higher rate of extinction throughout the Quaternary period, with the worst of these happening during the ice ages. This hypothesis states that there are several triggers that can cause extinction, including habitat loss, overhunting, disease, climate change, and others Specialists, according to the Turnover Pulse hypothesis, are among the most prone to extinction because they are limited to eating just one or a few types of food.
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Is someone really good in biology? If so can someone please help me with this I’m struggling with it!!
1. Replicated DNA code will be: TAA CGTGAT; 2. mRNA codons are therefore: UAA CGU GAU ; 3. tRNA anticodons are: AUU CGC CUA; 4. Amino acid sequence is: Stop - Arg - Asp
What is codon?Sequence of three consecutive nucleotides in DNA or RNA molecule that codes for specific amino acid is called as codon.
Assuming the original DNA code is the template strand, the replicated DNA code will be:
TAA CGTGAT
To determine the mRNA codons, we need to transcribe DNA code into mRNA by replacing T with U: UAA CGUGAU
mRNA codons are therefore: UAA CGU GAU
The anticodon for UAA is AUU, which pairs with the codon UAA via complementary base pairing. The anticodon for CGU is GCA, which pairs with the codon CGU via complementary base pairing. The anticodon for GAU is CUA, which pairs with the codon GAU via complementary base pairing.
Therefore, tRNA anticodons are: AUU CGC CUA
To determine the amino acid sequence, we need to use genetic code to translate the mRNA codons into their corresponding amino acids.
UAA = Stop codon
CGU = Arginine (Arg)
GAU = Aspartic acid (Asp)
Therefore, amino acid sequence is: Stop - Arg - Asp
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Some plants reproduce asexually through a process called vegetative propagation. If the climate in a tropical area suddenly becomes arid, what would happen to the plants that reproduced asexually?
If the climate in a tropical area suddenly becomes arid, the plants that reproduce ase-xually would be at risk of drying out and dying.
This is because asexual reduplication doesn't involve the exchange of inheritable material, and so the shops aren't suitable to acclimate to the new environment and come more tolerant of the thirsty climate. Without the exchange of inheritable material, the shops can not evolve to come more resistant to extreme conditions.
As a result, the shops may struggle to survive in the new environment, and may ultimately die due to lack of water and nutrients.
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19. In humans, a Widow's peak is dominant to having a straight hairline, and free earlobes are dominant to
having attached ones. A woman who is homozygous for her Widow's peak and heterozygous for her
earlobes marries a man that has a straight hairline and is also heterozygous for his earlobes. Determine
the phenotypic ratio. What is the probability that they have a child who looks like mom?
Answer:
Explanation:
there is a 50/100 chance that the child will look like its mom since the dad also has the same characteristics
the term (energy transfer mechanisms) that is most relevant to a body's use of perspiration to cool itself is .
The energy transfer mechanism most relevant to a body's use of perspiration to cool itself is the process of evaporation.
Evaporation is a process that allows the body to cool down by secreting fluids through sweat glands. Perspiration is a natural and critical process for maintaining a healthy body temperature. It is essential to maintain the body's natural thermal regulation, even when the external temperature rises above normal levels.
When the temperature of the human body rises above its normal range, the body initiates its natural cooling mechanism. The cooling mechanism is activated by the hypothalamus, a region of the brain that is responsible for maintaining the body's internal environment.
The hypothalamus sends a signal to the sweat glands, resulting in the release of sweat. When the sweat evaporates, it removes heat from the body, lowering its temperature.
The energy transfer mechanism most relevant to a body's use of perspiration to cool itself is the process of evaporation. When sweat evaporates, heat is removed from the surface of the body.
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