Answer:
Compartmentalization increases the efficiency of the process of cellular respiration, leading to higher energy production (ATP).
Explanation:
In biology, compartmentalization refers to the formation of separate areas within the cell in order to carry out specific cellular functions more efficiently. In a cell, these compartments are usually delimited by lipid layer membranes. In eukaryotic cells, mitochondria (and also chloroplasts in plants) are the most important compartments in terms of metabolic processes. These organelles function to generate energy in the form of ATP by the process of cellular respiration. From an evolutionary perspective, compartmentalization increases the surface area that mitochondria use to generate energy ATP and provides a unique internal medium to carry out these metabolic reactions since oxidative phosphorylation, which the most important process in terms of energy generation, occurs in the mitochondrial matrix.
How do T cells coordinate the immune system?
Answer: Helper T cells, or Th cells, coordinate immune responses by communicating with other cells. In most cases, T cells only recognize an antigen if it is carried on the surface of a cell by one of the body's own MHC, or major histocompatibility complex, molecules.
Explanation:
Answer:
T cells identify pathogens based on antigens on the surface of pathogens. The T cells then multiply and stimulate B cells to produce antibodies. The antibodies attach to the antigens, making the pathogens a target for phagocytes.
Explanation: sample response
HI
Why does a tertiary have to eat so much to stay alive
Answer:
Because there are losses in energy between levels, the population between levels also diminishes. With less energy, there are less creatures that can be supported by it, so the level with the least amount of creatures would be the tertiary consumers, while the level with the most organisms would the producers.
Explanation:
I hope that this helps ;)
The tertiary consumers in the trophic level receive a very little amount of energy in a food chain. This is because these organisms are found at the top level and 10% of energy is only transferred from one trophic level to another.
What do you mean by Trophic levels?Trophic levels may be defined as the sequential arrangement of the organisms in the ecosystem with respect to their function and eating habits.
With this 10% energy transferred, top-level consumers received it in a very small amount. So, in order to increase their relative fitness, they have to eat too much food.
Therefore, it is well described above.
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Euploid changes occur by which of the following developmental errors. A. Non-disjunction during Anaphase I of meiosis. B. Non disjunction during Anaphase II of meiosis. C. Failure of cell division and production of unreduced gametes during meiosis. D. Somatic doubling in the meristem leading to reproductive organs. E. Both A and B are correct. F. Both C and D are correct. G. All the answers are correct.
Answer:
A. Non-disjunction during Anaphase I of meiosis.
Explanation:
Euploidy is an alteration in the organism´s natural number of chromosomes. Individuals with euploidy express a different number of homologous chromosomes set than the one from the normal number.
The cause of this alteration is that homologous chromosomes do not separate during the anaphase of meiosis 1.
There are two types of euploidy:
Polyploidy: Increase in the number of chromosomes characteristic of a diploid complement. During anaphase 1, homologous chromosomes do not separate and migrate together to the same pole. One of the resulting gametes ends with the whole chromosomic material, while the other cell ends with non. The first one goes through the second phase of meiosis and forms two diploid gametes. Monoploidy: Decrease in the normal number of chromosomes. The individual only gets one set of chromosomes. This is a monoploid organism, n.Euploid changes usually takes place as a result of this below developmental errors: is A. Non-disjunction during Anaphase I of meiosis.
Euploidy can be regarded as chromosomal variation which usually take place on the entire set of chromosomes in a cell or an organism.Euploidy can comes in three ways which are;
monoploidydiploidypolyploidyEuploid is due to Non-disjunction that usually occur during Anaphase I of meiosis and this alterations is because of failure of homologous chromosomes to separate during the anaphase of meiosis 1.Therefore, option A is correct.
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Which of the following is not a possible effect of increasing carbon dioxide levels in the atmosphere? a. increase in water contamination and floods b. ocean acidification c. cutting down forests d. reduction of cold-related deaths
Answer:
C. Cutting down forests.
Explanation:
Carbon dioxide is an inorganic gaseous molecule with the chemical formula, CO2. It is naturally released into the atmosphere via a lot of processes. However, CO2 is the most important greenhouse gas as it contributes the most to the global warming effect of the Earth.
The effects of an increase in CO2 concentration in the atmosphere is as follows:
- increase in water contamination and floods
- ocean acidification
- reduction of cold-related deaths
However, the cutting down of forests is not an effect of an increase in CO2 concentration but rather a cause.
Answer:
C
Explanation:
Edg 2020-2021
Where is DNA present inside a eukaryotic cell?
Where is DNA present inside a eukaryotic cell?
Answer:NucleusHow does artificial selection cause rapid changes in the phenotypes of organisms?
A.By selecting dominant genotypes
B.By changing the number of
chromosomes
C.By changing the frequency of alleles and
selecting new combinations of traits
D.By stimulating the species to increase
the production of new mutants
Answer: A. By selecting dominant genotypes
Explanation:
Artificial selection or selective breeding can be defined as the induced breeding process in which humans select parents of plants and animals that have desired traits that are beneficial for them to produce offspring that have characteristics of both parents and they are of improved yield and quality. This brings the change in the phenotypes of the offspring as compared to the parents. As the passage of dominant desirable traits in the genotype from either of the parent when gets expressed then the phenotype of the organism also change.
During Prophase 1, chromosomes from each parent pair up
based on their similarity. These paired chromosomes are called
chromosomes.
During Prophase 1, chromosomes from each parent pair up based on their similarity. These paired chromosomes are called homologous chromosomes.
What are Chromosomes?Chromosomes may be defined as thin, thread-like structures that are appeared during the process of cell division. These structures may consist of DNA, RNA, histone, and non-histone proteins. Chromosomes were discovered by E. Strasburger in 1875.
Homologous chromosomes may be characterized as a set of one maternal and one paternal chromosome that significantly pairs up with each other inside a cell during fertilization. They always paired up on the basis of their similarities.
Therefore, during Prophase 1, chromosomes from each parent pair up based on their similarity. These paired chromosomes are called homologous chromosomes.
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Which natural material is most often used to make paper?
Will give BRAINLY
Answer:
I believe that A Wood is correct
what stage of meiosis is seen here:
telophase
telophase 1
telophase 2
interphase
Answer:
It looks like Telephase 1
What system does the Borrelia burgdorferi bacteria enter from the tick to the host?
Nervous system
Muscular-skeletal system
Circulatory system
Respiratory system
Answer the questions below. Will mark the correct answer as brainliest and report irrelevant answers.
Answer:
The reasons are the following.
Explanation:
Bear can live on land in a very cold regions of earth with the help of its thick skin and more hair on its body.
Frogs lives on lands due to its body structure and food availability. It has sticky tongue that captures insects.
Humans lives on lands not in water due to its body structure because its body structure can't allow humans to live in water due to absence of gills.
Seagull lives in the aquatic ecosystem because seagull feeds on fishes and other marine animals.
Sharks lives in water due to its body structure such as gills that are used to respire in water and the shark can't respire without water.
Meerkat lives in the arid climate because they lives underground to save themselves from the environment and the presence of food.
Protea lives in desert due to their dry skin that can tolerate the warm temperature.
Lions lives in the jungle due to the presence of food such as deer, buffalo etc and warm environment.
Dragonfly lives on land and water due to feed on the larva of mosquitoes that is present in the water bodies and good environmental conditions.
4. What term describes the reactants that an enzyme
acts on?
Yeasts are single-celled eukaryotic organisms. Yeasts undergo mitotic division when conditions are favorable. When limited nutrients are available, yeasts start dividing by the process of meiosis.
What is a likely reason for the change from mitosis to meiosis during reproduction under these conditions?
The process of meiosis produces greater numbers of yeast cells at a faster rate as compared to mitosis.
Crossing over of genes during meiosis increases diversity and the chance of survival of the next generation.
Duplication of genes during meiosis ensures efficient functioning of the newly formed yeast cells.
The yeast cells formed by meiosis are able to adapt as well as the parent cell because they are identical.
Yeasts change from mitotic to meiotic division when conditions are unfavorable because meiosis increases genetic diversity and improves their chances of survival in unfavorable conditions.
During meiosis, crossing over of genetic materials between non-homologous chromosomes creates genetic recombination and makes the resulting offspring to be genetically more diverse than their parents.
The increased genetic diversity will increase the chances of survival of the offspring in a constantly changing environment. In other words, the more genetically diverse a population is, the more their chances of surviving adverse environmental conditions.
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What was the industrial revolution of peppered moth's
Answer:
Before the industrial revolution, peppered moths camouflaged with the bark on trees. During the the industrial revolution the bark of the trees darkened, so the white moths no longer camouflaged with the bark. However, the black moths did camouflage.
Eye color is also determined by genes. Brown eyes are dominant, and blue eyes are recessive. What must be true for two brown-eyed parents to produce a blue-eyes child?
Answer:
The brown-eyed parents must be HETEROZYGOUS to produce a blue-eyed child
Explanation:
This question involves a single gene coding for eye color in humans. The allele for brown eyes (B) are dominant over the allele for blue eyes (b). This means that an individual that is heterozygous (Bb) will phenotypically have a brown eyes.
According to this question, a blue-eyed child (bb) will be produced when two brown-eyed parents are HETEROZYGOUS (Bb) for the eye color trait. This means that each of the parent donated the recessive allele (b) to produce the (bb) offspring. Please find the punnet square attached.
Answer:
They each pass on the blue-eye allele
Explanation:
If both parents carry a recessive blue eye gene, then it is possible for the parents to produce a blue-eyed child. The parents must be heterozygous for the eye color trait in order for this to happen. Their genotypes are not the same genes for a trait and are not (BB) or (bb) but instead (Bb). If both parents carry the recessive trait of having blue eyes, they may be able to produce a blue-eyed child.
If dylan which has AB- has kids with O blood, could they have a child with O blood. Explain..
Answer:
They could not have O blood because blood types A and B are dominant and O blood is recessive. The only way They could have a child with type O blood is if Dylan was a carrier.
Explanation:
Punnet squares!
A. Which two organisms are most closely related?
How are liquid wastes treated at a wastewater treatment plant?
Answer:
They are released into a river, lake, or ocean.
Explanation:
Hemophilia is a recessive sex-linked disorder. A man with hemophilia has a daughter of normal phenotype. She marries a man who is normal for the trait. What is the probability that a daughter of this mating will be a hemophiliac? That a son will be a hemophiliac? If the couple has four sons, what is the probability that all four will be born with hemophilia.
Answer:
Hemophilia is an X-linked recessive trait.
Explanation:
A non-hemophiliac father and a hemophiliac mother have a son.
What is the percent chance that the son will be a hemophiliac?
Optogenetics is a powerful tool that uses light to control the activity of specific neurons. These neurons contain artificially introduced light-gated ion channels. A number of different light-gated channels with different ion specificities have been either found in nature (such as the sodium-specific channelrhodopsin, originally found in green algae) or produced via genetic engineering (the production of a chloride ion-specific form of channelrhodopsin). There are also light-gated ion channels specific for potassium or calcium. Sort each light-activated channel type based on whether activation of this channel will tend to depolarize cells or not.
a. chloride channel
b. sodium channel
c. calcium channel
d. potassium channel
A. Promote Depolarization
B. Inhibit Depolarization
Answer:
Sodium and calcium promote depolarization
Chloride and potassium inhibit depolarization
Using the sliding flament theory, explain (or draw) the process of sarcomere shortening. Start from the point where calcium would interact with troponin. Make sure to discuss the roles of actin, myosin, and ATP.
Answer:
Calcium binds to troponin CTroponin T moves tropomyosin and unblocks the binding sitesMyosin heads join to the actin forming cross-bridges ATP turns into ADP and inorganic phosphate and releases energyThe energy is used to impulse myofilaments slide producing a power strokeADP is released and a new ATP joins the myosin heads and breaks the bindings to the actin filamentATP splits into ADP and phosphate, and the energy produced is accumulated in the myosin heads, starting a new cycle Z-bands are pulled toward each other, shortening the sarcomere and the I-band, producing muscle fiber contraction.Explanation:
In rest, the tropomyosin inhibits the attraction strengths between myosin and actin filaments. Contraction initiates when an action potential depolarizes the inner portion of the muscle fiber. Calcium channels activate in the T tubules membrane, releasing calcium into the sarcolemma. At this point, tropomyosin is obstructing binding sites for myosin on the thin filament. When calcium binds to troponin C, troponin T alters the tropomyosin position by moving it and unblocking the binding sites. Myosin heads join to the uncovered actin-binding points forming cross-bridges, and while doing so, ATP turns into ADP and inorganic phosphate, which is released. Myofilaments slide impulsed by chemical energy collected in myosin heads, producing a power stroke. The power stroke initiates when the myosin cross-bridge binds to actin. As they slide, ADP molecules are released. A new ATP links to myosin heads and breaks the bindings to the actin filament. Then ATP splits into ADP and phosphate, and the energy produced is accumulated in the myosin heads, which starts a new binding cycle to actin. Finally, Z-bands are pulled toward each other, shortening the sarcomere and the I-band, producing muscle fiber contraction.
What methods are used
to classify living things
Into groups?
Explanation:
We can classify living things on these things:-
1) If they can carry out processes like respiration, ingestion.
2) If they move on their own
3) if they can talk
THIS WAS A FAIRLY SIMPLE QUESTION!
What% of DNA does a clone share with it's parent?
Answer: if its anasexual its 75%-100 if its a sexual its at a minimum of 50-25%
Explanation:
Place the following items in the correct order from most simple at the top to the most complex at the bottom. Drag and drop the terms until you have the correct order.
Tissue, organ system, atom, organelles complex organism, cell, molecules, Organ,
Answer:
- atom
- molecules
- organelles
- cell
- tissue
- organ
- organ system
- complex organism
Explanation:
bacteria enter the body through contaminated foods, releasing harmful toxins that impair the body's ability to fight off infection. which body systems are involved in this scenario??
Answer:
Immune System is involved to fight against bacteria.
An _______________ is a group of organisms and other non-living parts of the environment that lives in an area.
Answer:
ecosystem
Explanation:
Look at the pedigree below, does anyone in the 4th generation have cystic fibrosis?
A No
B Yes, just Child 2
C Yes, Child 1 & 2
D Yes, Child 3
E Yes, just Child 1
Answer:
C
Explanation:
Child 1 and 2 are both filled in and Child 3 is a carrier, as indicated by the key to the right of the pedigree.
Which of the following traits make a good index fossil?
A small geographic range
B large body size
C short-lived as a species
D plants instead of animals
Answer:
d
Explanation:
An index must have animal or plant preserved in the rock record of the Earth that is characteristic of a particular span of geologic time or environment
Short-lived as a species is the trait that make a good index fossil. Therefore, the correct option is C.
What is a fossil?A fossil is the remains or traces of a prehistoric organism, such as a plant, animal, or microorganism, that have been preserved in the Earth's crust over millions of years.
Index fossils are the fossils that are scarce in the time period and are frequently discovered as well as widely dispersed.Traits of a good index fossil are mentioned below:
It is one that existed for a relatively short period of time, which allows for precise dating of rock layers. They are remarkable and widespreadThey have a limited geologic timeThey are abundantThe other traits mentioned (small geographic range, large body size, and being a plant instead of an animal) are not necessarily indicative of a good index fossil. Therefore, the correct option is C.
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The leaves of plants have layers that perform different functions. The_____ layer contains chlorophyll which carries out most of the photosynthesis in the leaf.
Answer:
The palisade layer
Explanation:
The palisade mesophyll layer of the leaves is a layer of columnar cells that contain many chloroplasts. This layer is localized right below the epidermis and cuticle of a leaf. The chloroplasts localized in this layer contain chlorophyll, which is the green pigment used to absorb light in order to carry out photosynthesis.
A student wishes to target hexokinase, a cytosolic enzyme of glycolysis, to the mitochondria of cells in culture as a project for a senior honor's thesis in her college. What experiment would be necessary to accomplish this task
Answer:
The correct way to accomplish this task is that the student needs to clone a transit sequence into the gene for hexokinase into these cells.
Explanation:
Clone is a hereditarily indistinguishable duplicate of a living being. It could be normally happening or made in the lab. There are various sorts of cloning systems; the most ordinarily utilized strategy is rDNA innovation and technology. During the cycle of rDNA innovation, unfamiliar DNA particles brought into target cells through the vector ( for example Plasmid). This technique is most generally utilized in gene transfer methodologies and gene articulations studies.
So, from the experiment; The correct way to accomplish this task is that the student needs to clone a transit sequence into the gene for hexokinase into these cells.