Answer:
The ORF open reading frame is an RNA sequence that is located between the start codon and the termination codon, bounded by untranslated sequences or UTR.
Explanation:
For the translation of an mRNA into a protein, a reading frame is required. This framework allows the division of the mRNA sequence into different codons during translation. The start codon is the main signal, since the translation starts at the start codon, this position allows the mRNA to read in the appropriate frame.
If you were trying to identify an unknown adult animal that must be either an echinoderm or chordate, which morphological feature(s) would guarantee that your organism was an echinoderm rather than a chordate.
Answer:
The radial symmetry and mesodermal skeleton in echinodems
Bilateral symmetry and internal skeleton of chordates
Explanation:
The echinoderms have radial symmetry and their skeleton is mesodermal made up of calcites known as ossicles while the chordates have bilateral symmetry and their internal skeleton is made up of bones and cartilages.
Which transport mechanism is most probably functioning in the intestinal cells using this information? Glucose diffuses slowly through artificial phospholipid bilayers. The cells lining the small intestine, however, rapidly move large quantities of glucose from the glucose-rich food into their glucose-poor cytoplasm.
A. Simple diffusion
B. Phagocytosis
C. Active transport pumps
D. Exocytosis
E. Facilitated diffusion
Answer: Option E) Facilitated diffusion
Explanation:
Facilitated diffusion engage selective transport proteins to move non-lipid soluble solutes like glucose across the lipid bilayer along concentration gradient (from high to low concentration) without the supply of energy (ATP).
Thus, transport proteins embedded in the lipid bilayer help move large quantities of glucose rapidly in intestinal cells by facilitated diffusion.
A species' realized niche ________. cannot be larger than its fundamental niche cannot be smaller than its fundamental niche is the niche that a species realizes/experiences in the absence of competition is never really realized because it isn't real is the portion of a species' niche that is "taken over" by competing species
Answer:
C. cannot be larger than its fundamental niche
A species' realized niche, defined by the conditions under which it can survive and reproduce in the face of competition and other contrasts, cannot be larger than its fundamental niche, which represents all the environmental conditions under which the species can exist.
Explanation:A species' realized niche refers to the conditions under which a species is able to survive and reproduce in a specific environment, in the presence of competition and other environmental constraints. It is essentially the range of abiotic and biotic conditions under which a species can persist. Conversely, the fundamental niche refers to the full set of environmental conditions under which a species can survive and reproduce in the absence of competition from other species.
Therefore, a species' realized niche cannot be larger than its fundamental niche, since the realized niche is shaped by the presence of competition and other limiting factors, narrowing down the conditions under which the species can exist from the broader possibilities offered by the fundamental niche.
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Starting with a population of genetically identical mice, you discover two new independent mutant strains in which all of the animals have epileptic seizures. In both strains, you know that the epileptic seizures are due to a single DNA mutation. You cross a mutant mouse from one strain to a mutant mouse from the second strain and find that none of their offspring undergo spontaneous seizures. From this experiment you would conclude that the two mutant strains of mice most likely have mutations in:
a-the same DNA base position within a particular gene
b-the same gene, but not necessarily the same DNA base position.
c-two different genes.
Answer:
B - the same gene, but not necessarily the same DNA base position. They do not show seizures when they are crossed, but show seizures in independent populations.
When they are not in the same position and hence they do not come together to express the disease.
Thus, the answer is B Explanation
a. If they are in the same DNA base positions,, their offspring might have expressed epileptic seizures.
c. If they are from different genes it would have interfered with the trait.
Final answer:
The two mutant strains of mice most likely have mutations in two different genes, as inferred from the observation that their offspring did not exhibit epileptic seizures, suggesting compensatory heterozygosity.
Explanation:
When a mutant mouse from one strain is crossed with a mutant mouse from another strain and the offspring do not exhibit epileptic seizures, it suggests that the mutations are likely in two different genes. This conclusion comes from the understanding that if the mutations were in the same gene (whether at the same DNA base position or different ones), the offspring would more likely show the dominant phenotype, in this case, seizures - if the seizure trait was a result of a dominant allele.
Since none of the offspring have seizures, this indicates that the mice are likely heterozygous for a recessive seizure allele from each parent, and thus each mutation is compensating for the other in a complementary fashion, which is consistent with the mutations being in two different genes.
The proximal end of the radius illustrates the relationship of form and function. The cup-like surface of the radial head articulates with the rounded shape of the capitulum.
This forms a joint that allows for _____.
Explanation:
The two large bones of the forearm, one being the Ulna and the other is radial bone or radius.The Radius is larger in size than the Ulna.Radius is prism shaped, little curved longitudinally long bone.The part of two joints known as elbow and wrist comprised the Radius.Radius link with the capitulum of the humerus at the elbow region.Radius forms a joint at the wrist region with the ulna bone.protists are a diverse group of mainly multicellular eukaryotes. true or false
Answer:false
Explanation: protists are mainly
Unicellular organism( i.e they are single cell organism) and are eukaryote( they have a nucleus) but some protist exist as multicellular example is some Algea, kelp. They can be find in moist environment.
Protist can be grouped into the
1. Animal protist are heterotrophs and they depend on autotrophs or producers for their food or other organism and are mobile( they move)
2. Plant protist are mainly autotrophs they have ability to synthesis there food through photisynthesis.
3.Fungi protist reproduce using spores. They are heterotrophs.
Some protist move by pseudopodia while some uses flagella.
Hence protein are not mainly multicellular eukaryotes but both unicellular and multicellular eukaryotes.
Answer:
false
Explanation:
protists are a diverse group of mainly unicellular eukaryotes.
In a population of 3000 fruit flies, 270 of them contain white eyes. White eye color is a recessive trait. What are the allelic frequencies for the red eye allele and white eye allele
Answer:Red is 91%, white is 9%
Explanation:3000-270 =2730 red in percentage is 2730/3000 *100/1 =91%
White is 270/3000*100/1= 9%.
Allele frequency or gene frequency is the relative frequency of an allele expressed as a fraction or percentage.
n the case of penguins, being too far from your neighbor is too cold and too close to your neighbor increases the risk of having a nest stepped on. Which types of distribution would they be most likely to use?
Answer:
Penguins in general are distributed close to each other to be able to withstand the extreme cold, characteristic of the ecosystems they inhabit. They also group together to incubate their eggs.
They perform a series of coordinated movements that help them fight low temperatures, being careful to drop the egg.
Penguins are most likely to use a clumped distribution. This allows them to balance the need for warmth from proximity to others while minimizing the risk of nest disturbances. This pattern is common amongst many species in the animal kingdom.
Explanation:The behavior described in the question for penguins refers to clumped distribution. This pattern occurs when individuals in a population find it advantageous to stay close to one another, often for reasons of protection, access to resources, or reproduction. However, as described, being too close can also have its drawbacks, such as the risk of having a nest stepped on by a neighbor. This balance between proximity for warmth and space for safety is indeed what defines a clumped distribution.
In the animal kingdom, many species use clumped distribution as a defense mechanism against predators. For penguins in particular, communal nesting not only provides safety in numbers but also helps conserve heat in the harsh, cold climate where they live.
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Explain why macromolecules (food) and water are essential to life at the cellular level. Consider the equation Food + Water + x = Life, what additional factor (x) would you add? Explain why you consider that this factor is essential to life.
Answer:
x = oxygen
Explanation:
Food and water is essential to life at cellular level because this water is responsible for making food with the help of CO2 during photosynthesis in plant and this food provides energy to the cell and support the life of plant cell. In an animal cell, H2O helps in releasing waste product from cell and provide a medium for reactions to occur.
Apart from food and water oxygen is also required to support life because oxygen is required by cells to oxidize food and release energy from food so this energy is used to perform metabolic function of cells that support cell life.
Final answer:
Macromolecules and water provide essential nutrients vital for cellular functions. Biological macromolecules are carbohydrates, lipids, proteins, and nucleic acids, synthesized through dehydration synthesis. The additional factor 'x' needed for life is oxygen, essential for cellular respiration and ATP production.
Explanation:
Macromolecules (food) and water are essential to life at the cellular level because they provide an organism with critical nutrients. These nutrients include four major classes of biological macromolecules: carbohydrates, lipids, proteins, and nucleic acids, each serving vital roles such as energy storage, structural support, cellular communication, and genetic information storage. Carbohydrates are primarily used for energy, lipids for storing energy and building cellular structures, proteins for numerous functions including tissue repair and enzyme catalysts, and nucleic acids for storing and transmitting genetic information. The synthesis of these macromolecules occurs through dehydration synthesis, a process where monomers link together by losing water molecules.To the equation Food + Water + x = Life, I would add the additional factor (x) as oxygen. Oxygen is crucial for cellular respiration, the process by which cells derive energy. Without oxygen, cells would not be able to produce ATP, the energy currency of the cell, which is vital for many cellular processes.In the cell, enhancer sequence functions are limited in their range of action by the formation of ___________ that hold specific genes and enhancers in close proximity.
Answer:
loops
Explanation:
An enhancer is a region in the DNA containing about 50-1500 base pairs that can be bound to proteins to increase the likelihood of transcription of a certain gene.
In the cell, the enhancer functions are limited by the formation of loops that hold specific genes and enhancers in close proximity.
By doing so there will be structural distortion of the DNA which is important for limiting enhancer functions.
Enhancer sequences in the cell facilitate gene regulation by forming chromatin loops within Topologically Associating Domains, ensuring proximity between enhancers and promoters.
In the cell, enhancer sequences function to regulate gene expression by facilitating the proximity of enhancers and promoters despite their linear distance on the DNA strand. This is achieved through the formation of chromatin loops which hold specific genes and their regulatory elements, like enhancers and silencers, in close spatial proximity within a three-dimensional space. These loops are formed within specific regions known as Topologically Associating Domains (TADs), which ensure that the effects of enhancers and silencers are limited to a subset of genes within the same domain, preventing unwanted interference with other genes located in different TADs.
Which hormone is NOT matched with its appropriate function? a. growth hormone;lengthens bones b. leptin; regulates bone density c. calcitonin; increases blood calcium levels d. osteocalcin; regulates glucose metabolism
Answer: Option D) osteocalcin; regulates glucose metabolism is not correctly matched
Explanation:
The function of osteocalcin, secreted by cells of the bone (osteoblasts) is to regulate body metabolism by increasing the level of calcium in the bone.
Insulin and Glucagon secreted by the pancreas, on the other hand, regulate glucose metabolism by lowering and increasing the level of blood sugar respectively.
Thus, osteocalcin; regulates glucose metabolism is not a correct match
Hormone is NOT matched with its appropriate function c. calcitonin; increases blood calcium levels Therefore , c. calcitonin; increases blood calcium levels is correct .
Calcitonin is a hormone produced by the thyroid gland. Its main function is to regulate calcium levels in the blood by decreasing calcium levels. When blood calcium levels rise too high, calcitonin is released to lower the levels by promoting calcium deposition in bones and inhibiting calcium absorption in the intestines.
a. Growth hormone; lengthens bones - Growth hormone, also known as somatotropin, is produced by the pituitary gland and plays a crucial role in stimulating growth, cell regeneration, and cell reproduction.
It indeed promotes the lengthening and thickening of bones, among other growth-related functions.
b. Leptin; regulates bone density - Leptin is a hormone primarily produced by adipose cells. Its main function is to regulate energy balance and inhibit hunger.
While it primarily regulates appetite and body weight, there's some evidence suggesting it may indirectly influence bone metabolism.
d. Osteocalcin; regulates glucose metabolism - Osteocalcin is a hormone produced by osteoblasts, cells that create bone.
Recent research has indicated that osteocalcin might play a role in glucose metabolism, affecting insulin secretion and sensitivity.
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Describe the differences in the circulation pattern in the thoracic cavity for the right side v. the left side after the vessels leave the aortic arch in humans versus cats.
Explanation:
In the cat, the left normal carotid supply route falls off the brachiocephalic arteryIn the human, the left normal carotid supply route is an immediate branch off the aortic curveGeneral way of circulation through the cat:
Blood streams from the head through the foremost vena cava into the right chamber Blood from the back finish of the body moves through the back vena cava into the right chamber The right atrium, blood courses and contracts through the tricuspid valve into the right ventricleIt can be by the pulmonary artery, and into the lungsIt can be through the pneumonic veins into the left atrium and Through the mitral valve into the left ventricleFinal answer:
The circulation pattern in the thoracic cavity involves the aortic arch, which leads to various arteries and returns blood to the right side of the heart via the superior and inferior vena cava. Both humans and cats have a diaphragm that aids respiration crucial for systemic circulation. Differences between species may include the branching pattern and vessel size from the aortic arch.
Explanation:
The question asks us to describe the differences in the circulation pattern in the thoracic cavity for the right side versus the left side after the vessels leave the aortic arch in humans compared to cats. Humans, as well as cats, have a four-chambered heart with the systemic and pulmonary circuits. However, the branching pattern of the aorta and the arrangement of the major arteries can vary between species. In humans, the aorta arcs to the left and gives rise to the brachiocephalic artery, the left common carotid artery, and the left subclavian artery. After the blood flows through the systemic circuit, it returns to the right side of the heart via the superior vena cava and inferior vena cava. The diaphragm, present in all mammals, plays a crucial role in separating the thoracic and abdominal cavities and assisting with respiration which is pivotal for the systemic circulation. In contrast, cats might display variations in the branching pattern from the aortic arch and the relative size of the blood vessels, which may affect the blood flow dynamics on either side of the heart after leaving the aortic arch. For both humans and cats, the heart pumps deoxygenated blood from the right side through the pulmonary circuit to the lungs and oxygenated blood from the left side through the systemic circuit to the body.
Biennials produce only a small leaf crown in the first year of growth.
True
False
The answer is true because biennialsare mostly two.
True, biennials like carrots and beets produce a small crown of leaves in the first year of growth as they focus on vegetative development and storage of resources, preparing for flowering and seeding in their second year.
True. Biennials are plants that have a two-year lifecycle. In the first year, they focus on vegetative growth, developing a small crown of leaves and storing resources in their roots and other structures. This vegetative phase includes crops such as carrots, beets, and cabbage, where typically only a rosette of basal leaves is produced. During the second year, these plants utilize the stored resources to flower, produce fruit, and set seeds, followed by the end of their lifecycle. The cold period, or winter, plays a crucial role in vernalizing these plants, preparing them for the reproductive phase. Due to the significance of this vegetative growth in the first year, these plants do not need to be re-planted annually like annuals, but they do not survive beyond the second year or season like perennials.
If Sylvia is described as trustworthy, altruistic and tender-minded, then she probably is fairly high on the Big Five superfactor known as extraversion neuroticism openness agreeableness conscientiousness
Answer:
Agreeableness
Explanation: cares about others and contributes to the happiness of others.
Answer:
non argumentive ad will most likely agree
Explanation:
The medial deltoid attached to the humerus at an angle of 15 deg. What are the size of the rotary and stabilizing components of muscle force when the total muscle force is 500 N
Answer:
The size of the rotary and stabilizing components of muscle are 129.41 N and 482.96 N
Explanation:
According to the angle produced between the deltoid attached and the humerus
The Rotary Formula (or Vertical Component) is
FR = 500 N · sin 15° = 129.41 N
and the Stabilizing Formula (or Horizontal Component) is
FS = 500 N · cos 15° = 482.96 N
Final answer:
For a muscle force of 500 N attached at a 15-degree angle, the rotary and stabilizing components are calculated using trigonometry, resulting in a rotary component of approximately 129.4 N and a stabilizing component of approximately 482.95 N.
Explanation:
The question pertains to calculating the rotary and stabilizing components of a muscle force when the total muscle force is given and the muscle is attached at a specific angle. To solve this, we apply knowledge of trigonometry and vector decomposition. Given that the total muscle force is 500 N and it's attached at a 15-degree angle to the humerus, the force can be decomposed into two components: the rotary (perpendicular) component and the stabilizing (parallel) component.
Calculations:
Rotary component (Fr): This is the component of the force acting perpendicular to the lever arm. It is calculated using the sine function (Fr = Total Force × sin(θ)). For a 15-degree angle, Fr = 500 N × sin(15°) = 500 × 0.2588 ≈ 129.4 N.
Stabilizing component (Fs): This is the component of the force acting parallel to the lever arm. It is calculated using the cosine function (Fs = Total Force × cos(θ)). For a 15-degree angle, Fs = 500 N × cos(15°) = 500 × 0.9659 ≈ 482.95 N.
In conclusion, for a total muscle force of 500 N attached to the humerus at a 15-degree angle, the rotary component is approximately 129.4 N and the stabilizing component is approximately 482.95 N.
1. List the cellular structures over which an action potential travels, starting at the dendrites and traveling to where neurotransmitter molecules are released.
Answer:
A neuron or a nerve cell is a unique cell, which performs an essential function of transmitting the nerve impulse in the form of action potential from one nerve cell to another. The point of communication between two neurons is known as a synaptic junction from where the transmission of a signal between presynaptic axon end and the postsynaptic dendrite occurs.
The synapse present in the dendrite receives a signal in the form of neurotransmitter from the presynaptic axon. This results in the formation of an action potential that gets transmitted towards the cell body of a neuron. From the cell body, the conduction of impulse takes place via a long tubule composition known as an axon, which constitutes the nodes of Ranvier and reaches the nerve endings or the axon terminals.
In the terminals, the change in potential results in the opening of the ions channels that discharge neurotransmitters in the form of acetylcholine, which further combines with the ligand-receptor situated on the next dendrite and thus repeats the process. Thus, the action potential travels from the dendrite to the cell body, and from there it travels to the terminals of the axon and eventually towards the ion channels and the ligand-receptor.
5. Which of the following statements are accurate?
A. Red blood cells are known as erythrocytes.
B. Hemoglobin would be found in white blood cells and functions in carrying oxygen in body tissues.
C. The liquid portion of the blood is known as the hematocrit.
D. Platelets are the only thing in the blood that contributes to blood clotting.
E. Lymphocytes are the only type of white blood cells and are immune cells
Answer: Option A ,Band C
Explanation:
Red blood cells are called erythrocytes. They are produced from the bone marrow and deposited into the blood stream when they are matured. The red blood cells carry oxygen through out the body.
Lymphocytes are white blood cells that are produced from the bone marrow and help in body defence, they are found in lymph tissues. They are immune cells.
Platelets are tiny cells that contribute to blood clots
The autonomic nervous system can change the rate of the heart by: Group of answer choices beta1 adrenergic receptor activation. Increases in cAMP lead to increased amounts of Na influx (though If channels) and Ca2 influx of the pacemaker cells. This increases the frequency of APs of the pacemaker, and increases the rate of contraction. beta2 adrenergic receptor activation. Increases in cAMP lead to increased amounts of Na influx (though If channels) and Ca2 influx of the pacemaker cells. This increases the frequency of APs of the pacemaker, and increases the rate of contraction. muscarinic ACh receptors activation. Activation leads to reduced activity of Ca2 channels, and increasing activation of K channels, hyperpolarizing cells and reducing the rate of contraction. alpha1 adrenergic receptor activation.
Answer:
The correct answer is: β1 adrenergic receptor activation. Increased in cAMP lead to increased amounts of Na influx (though if channels) and calcium influx of pacemaker cells. This increases the frequency of APs of the pacemaker and increases the rate of contraction.
Explanation:
cAMP generated in response to β1 adrenergic receptors,results in excitation contraction coupling by initiating PKA and causing phosphorylation of L type Ca2+ channels and ryanodine receptors. This increases the concentration of intracellular Ca2+ ions in atrial cells, ventricular cells and AV pacemaker cells. This increase in firing rate. As a result rate of contraction increases.
Which of the following is a NOT mechanism by which the biofuels are made? a. by reacting animal fat or vegetable oil with waterb. by fermenting sugar components of starchy cropsc. by reacting animal fat or vegetable oil with alcohold. by treating animal fat or vegetable oil with hydrogen
Answer:
A. by reacting animal fat or vegetable oil with water.
D. by treating animal fat or vegetable oil with hydrogen
Explanation:
Water is insoluble in animal fat or vegetable oil so it makes a layer on the surface of oil. When animal fat or vegetable oil react with hydrogen, it produces solid oil called ghee not biofuels. Biofuel is produced when animal fat or vegetable oil react with alcohol.
Answer: Option A and D.
Explanation:
Biofuel is fuel that produced from either plants, algae or animals. There are four main types;
Ethanol that is made from corn.
Biodiesel made from animal fats and vegetable oil.
Green diesel made from algae and plant sources.
Biogas e.g methane made from animal manure and digested organic material.
Ethanol a type of biodiesel is made from fermentation of sugar components in starch crops.
Biodiesel is made from reaction between animals fats or vegetable oil with alcohol.
Explain how the ratio of elements in a compound is related to the compound’s properties.
Answer:
A compound is made up of atoms of different elements combined together in a chemical reaction with fixed ratio and in a defined manner via chemical bonding.
Elements on the other hand are pure chemical substance made of same type of atom.
The properties of the compound is related to the ratio of elements in a way that the elements individual properties will manifest itself in the compound giving it a hybrid property.
Alleles of the gene that determines seed coat patterns in lentils can be organized in a dominance series: marbled > spotted = dotted (codominant alleles) > clear. A lentil plant homozygous for the marbled seed coat pattern allele was crossed to one homozygous for the spotted pattern allele. In another cross, a homozygous dotted lentil plant was crossed to one homozygous for clear. An F1 plant from the first cross was then mated to an F1 plant from the second cross. a. What phenotypes in what proportions are expected from this mating between the two F1 types? b. What are the expected phenotypes of the F1 plants from the two original parental crosses?
Answer:
two types of cross are given,marbled and spottedhere, marbled is dominant (MM) ; spotted is co-dominant (Ss)
in F1 generation → MS (marbled spotted coat)
2. dotted and clear
here, dotted is co-dominant (Dd) ; clear is recessive (dd)
in F1 generation → Dd (clear background with dotted coat)
if MS × Dd , then, it will give,
25% spotted and dotted ( as both are co-dominant {Ss=Dd}) : 50% marbled (as marbled is dominant{ MM}) : 25% spotted ( as spotted {Dd} is co-dominant and clear {dd} is recessive)
a. 25% spotted dotted: 50% marbled: 25% spotted
expected phenotypes from F1 is →MS (marbled)- as marbled is the most dominant among all, it won't let spotted to be expressed.
and Dd - as clear is recessive only dotted will be expressed.
b.marbled and dotted.
Final answer:
The expected phenotypes from the mating of two F1 lentil plants from different crosses are 1:1 marbled to spotted/dotted, as marbled is dominant while spotted and dotted show codominance, and clear is recessive. The F1 offspring from the first cross will have a marbled phenotype, and from the second cross, a dotted phenotype due to codominance.
Explanation:
We are addressing complex inheritance patterns in lentils involving multiple alleles with a dominance series. To predict the offspring's phenotypes, we first need to understand Mendel's laws and how dominance affects the genotype-phenotype relationship. We also employ Punnett squares to visualize genetic crosses.
a. Expected Phenotypes in Offspring from F1 Mating
The F1 plants from the first cross (marbled × spotted) will all exhibit the marbled phenotype, as marbled is dominant over spotted. The F1 plants from the second cross (dotted × clear) will all show the dotted phenotype due to codominance between dotted and spotted alleles, and dominance over clear.
When these two F1 plants are crossed (marbled/dotted × dotted), the expected offspring phenotypes are as follows, assuming each allele has equal chance of passing on:
Marbled: Represents the dominant allele and is expected to show up in half the offspring if the marbled allele is present.
Spotted/Dotted (Codominance): Should appear in the other half of the offspring, as these are the alleles present in both F1 parents. The spotted and dotted patterns are codominant and will be expressed equally if one of each is inherited.
Clear: Will not be seen in the offspring, as it is recessive to all other alleles.
Thus, the phenotypic ratio of the offspring from the cross between the two F1 plants is expected to be 1:1 marbled to spotted/dotted with no clear phenotypes.
b. Expected F1 Phenotypes from Original Parental Crosses
The F1 phenotype resulting from a homozygous marbled crossed with homozygous spotted will be all marbled, following Mendelian inheritance patterns. In the cross of homozygous dotted with homozygous clear, all offspring will display a dotted pattern, indicative of codominance interaction over the clear allele.
A maternal effect can cause the offspring phenotype ratio to depart from that of classic Mendelian inheritance. In a species of snail, the dominant allele N codes for right-handed shell coiling and recessive allele n codes for left-handed shell coiling. If an Nn female with right-handed shell coiling males with an Nn male, what is the shell coiling phenotypic ratio of their offspring?
A. 4.right-handed coil:0, left-handed coil
B. 3. Right-handed coil: 1.left-handed coil
C. 3.bidirectional coil: 1.left-handed coil
D. 0.right-handed coil: 4.left-handed coil
Answer:
B. 3. Right-handed coil: 1.left-handed coil
Explanation:
Phenotype is what you see - the visible or observable expression of the results of genes, combined with the environmental influence on an organism's appearance or behavior.
When Nn is crossed with Nn, they will produce offspring with NN, Nn, Nn and nn genotype.
N - Dominant allele
n - recessive allele
The phenotypic ratio of this offspring is 3 right-handed coil and 1 left-handed coil.
Answer:
B. 3 right-handed coil: 1 left-handed coil
Explanation:
Female genotype : Nn
Male genotype: Nn
N: dominant allele (right handed coil)
n: recessive allele (left handed coil)
When we cross the Male (Nn) x Female (Nn) the phenotypic ratio will be right handed coil 3 : left handed coil 1.
Solution:
Nn x Nn
Four possible genotypes = NN, Nn, Nn, and nn
So, NN = right handed coil
Nn (2) = right handed coil
nn= left handed coil
The disease Leber's optic neuropathy is caused by a mutation in a gene carried on mitochondrial DNA. What would be the phenotype of their first child if a man with this disease married a woman who did not have the disease? What would be the result if the wife had the disease and the husband did not?
Answer: the child's phenotype will be normal.
The child will acquire that disease.
Explanation:
The mitochondrial DNA is a small circular chromosome that exists in the mitochondria. The mitochondria is the power house of the cell and all its 37 DNA are essential for a normal function of the mitochondria. the mtdna is passed directly from the mother (through the egg cell) to the child either a male or female but the son cannot pass his mtdna to his child. Thus, if a man with this disease marries a woman not affected, the child's phenotype will be normal. But if the wife has the disease, this willl be passed from her to her child me it a male or female.
"As you examine the specimens (slides, whole specimens, etc.) in lab, determine where each species belongs on the phylogenetic tree based on the traits provided. List 5 additional traits you can add to the phylogeny. "
To determine where each species belongs on the phylogenetic tree, examine their shared traits and make inferences about their evolutionary history. Five additional traits can be added to the phylogeny, such as anatomical structures, biochemical reactions, reproductive strategies, behaviors, and genetic sequences.
Explanation:When examining specimens in the lab, you can determine where each species belongs on the phylogenetic tree based on their shared traits. By comparing the traits of different species, you can identify common characteristics and make inferences about their evolutionary history.
For example, if two species share a trait that is not found in any other species, they are likely more closely related and would appear closer on the phylogenetic tree.
To add five additional traits to the phylogeny, you can consider various characteristics such as anatomical structures, biochemical reactions, reproductive strategies, behaviors, and genetic sequences. By including these traits, you can further refine the phylogenetic tree and understand the relationships between different species more comprehensively.
The level of security in terms of the corresponding bit length directly influences the performance of the respective algorithm.We now analyze the influence of increasing the security level on the runtime. Assume that a commercial Web server for an online shop can use either RSA or ECC for signature generation. Furthermore, assume that signature generation for RSA-1024 and ECC-160 takes 15.7 ms and 1.3 ms, respectively
Answer:
what is the question you basicly just gave us a paragraph to comment on
Explanation:
The security level, represented by the bit length, impacts the algorithm performance. RSA and ECC illustrate this point, providing the same security level, yet ECC is faster due to its efficiency and the use of fewer bits for the same security.
Explanation:The level of security indeed has a direct impact on the performance of an algorithm, and this can be clearly seen in your given example with RSA and ECC encryption algorithms. RSA-1024 takes 15.7ms for signature generation, whereas ECC-160 only takes 1.3ms. This speed discrepancy can be attributed to the fact that ECC (Elliptic Curve Cryptography) is much more efficient than RSA. Although ECC delivers the same level of security with fewer bits, thus speeding up the process, RSA requires more computational resources for the same level of security.
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Carbon absorbs energy at a wavelength of 150. nm. The total amount of energy emitted by a carbon sample is J. Calculate the number of carbon atoms present in the sample, assuming that each atom emits one photon.
The given question is incomplete. The complete question is as follows.
Carbon absorbs energy at a wavelength of 150 nm. The total amount of energy emitted by a carbon sample is [tex]1.93 \times 10^{5} J[/tex]. Calculate the number of carbon atoms present in the sample, assuming that each atom emits one photon.
Explanation:
It is given that the energy at which C-atom absorbs energy is 150 nm. So, energy emitted by the carbon atom will have same wavelength at which C-atom absorbs the energy.
As we know that relation between energy and wavelength is as follows.
E = [tex]\frac{hc}{\lambda}[/tex]
where, h = Planck's constant = [tex]6.624 \times 10^{-34} J sec[/tex]
c = speed of light = [tex]3 \times 10^{8} m/s[/tex]
[tex]\lambda[/tex] = 150 nm = [tex]150 \times 10^{-9}[/tex]
Therefore, energy of one carbon atom is calculated as follows.
E = [tex]\frac{hc}{\lambda}[/tex]
= [tex]\frac{6.624 \times 10^{-34} Js \times 3 \times 10^{8} m/s}{150 \times 10^{-9}}[/tex]
= [tex]1.324 \times 10^{-18} J[/tex]
As the total energy emitted by the carbon sample is [tex]1.93 \times 10^{5} J[/tex]. Let us assume that the number of C-atoms in the sample be x and it is calculated as follows.
[tex]E_{total} = n \times E_{1C-atom}[/tex]
n = [tex]\frac{E_{total}}{E_{1C-atom}}[/tex]
= [tex]\frac{1.93 \times 10^{5}}{1.324 \times 10^{-18} J}[/tex]
= [tex]1.45 \times 10^{23}[/tex]
Thus, we can conclude that number of carbon atoms present in the sample, are [tex]1.45 \times 10^{23}[/tex].
Fungi and plants form mutually beneficial symbiotic relationships called mycorrhizae. Classify the resources as a. supplied by the fungus or the plant. b. Supplied by fungus. c. Supplied by fungus d. Supplied by plant.
Answer:
Mycorrhiza is a symbiotic association in between the green plants and fungus.
The micorrhiza are located in the roots of the vascular plants. The Green plants performs the process of photosynthesis and the sugars produced are supplied to the Micorrhizas.
The fungus supplies the nutrients, water such as phosphorus that is absorbed from the soil to the plant body.
Answer:Answer:
Mycorrhiza is a symbiotic association in between the green plants and fungus.
The micorrhiza are located in the roots of the vascular plants. The Green plants performs the process of photosynthesis and the sugars produced are supplied to the Micorrhizas.
The fungus supplies the nutrients, water such as phosphorus that is absorbed from the soil to the plant body.
Explanation:
Answer:
Mycorrhiza is a symbiotic association in between the green plants and fungus.
The micorrhiza are located in the roots of the vascular plants. The Green plants performs the process of photosynthesis and the sugars produced are supplied to the Micorrhizas.
The fungus supplies the nutrients, water such as phosphorus that is absorbed from the soil to the plant body.
n corn long ears (L) is dominant to short ears (l); glossy kernels (G) is dominant to opaque kernels (g) and high starch (S) is dominant to normal starch (s). A heterozygous plant with long ears, glossy kernels and high starch is crossed with a short eared plant with opaque kernels and normal starch. The following phenotypes are observed. Which genes are linked? (Gene name is based on the dominant trait.)
The question is incomplete. I have attached the complete question
Answer:
Ears and starch are linked, glossy isn't linked to either
Explanation:
The deviation from expected frequencies indicates that ears and starch genes are linked
You are studying the source of new virus that has recently infected humans. You suspect that the virus was transferred from other primates (they exhibit a similar infection), specifically chimpanzees, gorillas, or orangutans. You sample blood from several infected humans and sequence some viral genes. You then build a phylogenetic tree with the human sequences and all the known strains from each primate. Draw a hypothetical phylogenetic tree that would suggest that the virus came from gorillas, and this transfer occurred twice independently. Label chimp sequences (c), gorilla (g), orangutans (o), and humans (h).
Answer:
it doesnt make sense can you try to put it some other way
Explanation:
ose the item in column 2 that best matches each item in column 1. axonemal microtubules nucleation treadmilling desmin EB1 Arp2/3 complex myosin subfragment 1 (S1) tropomodulin gelsolin microvilli lamin phosphoinositides MAPs plectin lamin A. anchors spectrin filaments to red blood cell membrane B. hemidesmosome C. crosslinks microtubules to intermediate filaments D. inhibits microtubule assembly E. forms scaffold underlying nuclear envelope F. stabilizes and organizes microtubules G. is in cilia and flagella H. formation of tubulin oligomers I. binds to microtubule plus ends J. prevents loss of subunits from filament minus end K. connects crisscrossing actin filaments into 3D networks L. binds to profilin and CapZ M. curves bacterial cells N. increase cell surface area O. decorates actin microfilaments P. nucleates microtubule branches Q. nucleates actin filament branches R. assembly and disassembly on opposite ends of the same filament S. breaks and caps actin filaments T. keeps muscle myofibrils in register U. desmosome
Answer:
axonemal microtubules: (G) is in cilia and flagellanucleation: (H) formation of tubulin oligomerstreadmilling: (R) assembly and disassembly on opposite ends of the same filamentdesmin: (T) keeps muscle myofibrils in registerEB1: (I) binds to microtubule plus endsARP2/3 complexes: (P) nucleates actin filament branches myosin subfragment 1 (S1): (O) decorates actin filamentstropomodulin: (J) prevents loss of subunits from filament minus ends gelsolin: (S) breaks and caps actin filamentsmicrovilli: (N) increase cell surfacefilamin: (K) connects crisscrossing actin filaments into 3D networksphosphoinositides: (L) binds to profilin and CapZMAPs: (F) stabilizes and organizes microtublesplectin: (C) crosslinks microtubles to intermediate filamentslamin: (E) forms scaffold underlying nuclear envelope.Explanation:
Axonemal microtuble: an axoneme is a microbule based cytoskeleton structure of a eukaryotic cilium or flagellum. It provides motility, and also gives support to the structure.nucleation: it is a process where interaction of several tubulin molecules lead to the formation of microtubules seed. This process occurs spontaneously in purified tubulin solutions.treadmilling: is a phenomenon, that especially occurs in actin filaments and microtubules,where continuous removal of actin monomers from pointed ends of filament occur and their reincorporation at the other endsdesmin: it is a specific protein found in muscle that integrates sarcolemma, Z disk and nuclear membrane in sarcomeres and regulates sarcomere architectureEB1: its a plus-end tracking protein that binds to plus end of microtules and modulates their dynamics and interactions with intercellular organelles.ARP2/3 complex: its a seven-subunit central actin nucleator that binds to the side of filament to promote new filament growth as a branch thus forming a complex actin network.myosin subfragmnet (S1): S1 is the head fragment of myosin globular heads, that contains the ATPase and actin-binding activities of myosin.tropomodulin: it is a protein that binds and caps the pointed ends(or minus ends) of actin filaments thereby regulating its length in muscle cells as well as non muscle cell.gelsolin: is an actin binding protein that binds and caps actin filament(responsible for assembling and disassembling of filaments)microvilli: found in the apical surface of epithelial cells or the stereocillia, spine like protrusions, that increase the cell surface area for diffusion upto 100 times.filamin: is an actin binding protein that holds two filaments at large angles.phosphoinositides: it regulates the activities of many actin binding proteins and have the tendency to bind with profilin and CapZ(its a capping protein that caps the barbed ends of actin filament)MAPs: microtubules associated protein or MAPs binds to and stabilizes microtubules lattice. MAPs have repeating domains that allow eash MAP molecule to associate with more than one tubulin dimer.plectin: a structural protein of the cytoskeleton that maintains tissue integritylamin: are fibrous protein of type V intermediate filaments that provide structural function and transcriptional regulation in the cell nucleus.