Answer: Sister chromatids are exact copies of each other and are formed just prior to cell division
Explanation:
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The true statement about sister chromatids is: "Sister chromatids are exact copies of each other and are formed just prior to cell division". The correct option is 3.
What is the correct statement for sister chromatids?During the S phase of the cell cycle, the DNA within a cell is replicated, creating identical copies of each chromosome called sister chromatids.
These chromatids are held together at the centromere and are separated during cell division (mitosis or meiosis) to ensure that each daughter cell receives an equal amount of genetic material.
The correct statement about sister chromatids is: Sister chromatids are exact copies of each other and are formed just prior to cell division.
Therefore, the correct option is 3.
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What might happen to the salinity of the ocean if animals were no longer living in it?
The salinity of the ocean and oceanic animals are not related. Living organisms are not the cause of the salt in the ocean, so if they no longer lived there would be no change.
Mendel was a careful researcher who studied the inheritance of certain traits in garden peas. What are some of the research practices Mendel used? Choose all that apply.
A. He crossed true-breeding pea plants.
B. He allowed eggs to be fertilized only by self-pollination.
C. He analyzed his data mathematically.
D. He controlled variables by studying one or two traits at a time.
Consider a population that contains black and white cats where the black allele (B) is dominant and the white allele (b) is recessive. Indicate whether each statement is true or false.
1. Evolution is occurring in a population of cats where the genotype frequencies of BB, Bb, and bb are 0.64, 0.32, and 0.04, respectively.
2. A population of cats is in Hardy-Weinberg equilibrium when the genotype frequencies of BB, Bb, bb are 0.49, 0.33, and 0.16, respectively.
3. Evolution is occurring in a population of cats where the genotype frequencies of BB and Bb are 0.7 and 0.2, respectively. _____
4. A population of cats is in Hardy-Weinberg equilibrium when the genotype frequencies of BB and Bb are 0.25 and 0.5, respectively. _____
Answer:
what is this what subject
Consider two kinesin motor proteins at the mitotic spindle midzone: kinesin A is a tetrameric motor that walks toward the plus end of both microtubules to which it is attached via its motor domains; kinesin B, on the other hand, walks toward the minus end of one microtubule while it is attached to another microtubule via its tail domain.How do these motors affect the length of the spindle?
A. They both work to shorten the spindle.
B. Kinesin-5 works to shorten the spindle whereas kinesin-14 works to lengthen it.
C. Kinesin-5 works to lengthen the spindle whereas kinesin-14 works to shorten it.
D. They both work to lengthen the spindle.
Answer:
C. Kinesin-5 (kinesin A) works to lengthen the spindle whereas kinesin-14 (kinesin B) works to shorten it.
Explanation:
Kinesins are microtubule-based motors localized in the mitotic spindle in order to ensure the correct segregation of the chromosomes during cellular division. These proteins are classified regarding their sequences at the core motor domains which determine their motility. Kinesins can move along microtubules in opposite directions, walking toward the plus end (i.e., the end that grows more rapidly) or moving toward the minus end. Recently, it has been shown that opposite forces between kinesin-5 (plus-end-directed) and kinesin-14 (minus-end-directed) microtubule-based motors regulate the length of the spindle during cellular division. Kinesin-14 is a minus-end-directed motor protein that walks along microtubules from plus- to minus-end, while kinesin-5 is a plus-end-directed motor protein that walks along microtubules from minus- to plus-end, and thereby they work to shorten and lengthen the mitotic spindle, respectively.
Which of these islands would likely have the most species diversity.
A small island in the middle of the ocean
O A large island near the mainland
Answer:
A large island near the mainland
Explanation:
A large island has a greater number of species, a greater interaction between them and a greater number of natural elements. All of this is capable of promoting biological specialization on a large scale, allowing new species to emerge more quickly than on a small island. Although a small island may also have great biodiversity, that island has fewer factors that promote the creation of new species, in addition to having fewer species interacting and creating new species.
Climate change can alter where species live, how they interact, and the timing of biological events, which could fundamentally transform current ecosystems and food webs. Evaluate each of the changes that can occur within an ecosystem . Select ALL of the changes that could be caused by rising temperatures.
Answer:Answer is A) B) C) D)
Explanation:
We have that the functions of Temperature rise are
Acidification of OceanThe local weather exchange influences the timings of herbal activitiesMigration Entirely leaving of that ecosystem behindFrom the question we are told
Climate change can alter where species live, how they interact, and the timing of biological events,
which could fundamentally transform current ecosystems and food webs.
Evaluate each of the changes that can occur within an ecosystem .
ClimateGenerally these are changes that can occur within an ecosystem
Acidification of Ocean Food cycle is distructuredInvasive Species.The local weather exchange influences the timings of herbal activities There is a drastic enlarge of most important producers in Oceans like Cyanobacteria.Migration Entirely leaving of that ecosystem behindTherefore
We Find that
Acidification of OceanThe local weather exchange influences the timings of herbal activitiesMigration Entirely leaving of that ecosystem behindAre all functions of Temperature rise
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what is an example of a transform boundary? I WILL GIVE YOU THE BRAINLIEST!!!!
Plz help me its due soon. And no download link plzzzzzzzz
Cladograms are diagrams that can be used to show evolutionary relationships between different species. The diagram below is a cladogram of four plant groups.
According to the diagram, which pair of groups diverged most recently?
A. conifers and ferns
B. conifers and mosses
C. flowering plants and ferns
D. flowering plants and conifers
Answer:
D
Explanation:
it is at the highes point in the cladogram
Answer:
The answer is D. floweringplants and conifers
Explanation:
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2. Two organisms would be most closely related if both have the same classification in which of the following groups?
A. Kingdom B. Phylum C. Class
D. Species
Answer: D. Species
Explanation:
Species is a group of population in which organisms have many common characteristics and they are capable of interbreeding and producing viable fertile offsprings. The members belonging to the same class and phylum have less common characteristics if they interbreed they may not produce viable fertile offsprings. Also, the organisms of the same kingdom have least common characteristics and will not have viable fertile offsprings after interbreeding.
Question:
Using a specific example, discuss the importance of electrons in the transfer of energy in living systems.
Answer: The transfer of energy in the form of electrons allows the cell to transfer and use energy in an incremental fashion. The principle electron carriers are NAD+ and NADH because they can be easily oxidized and reduced, respectively.
Explanation:
Electrons are very significant in the steps of energy transfer in the living body cells.
When the electrons are displaced from the molecule it gets oxidized which results in a reduction in the potential energy.
Electrons transfer is very important because most of the power is stored in the atoms in the form of electrons that are required for cell functioning.The chief electron transporters are NADH and NAD⁺ they reduce and oxidizes the compounds.NAD⁺ is oxidized and NADH is the reduced form of the molecules.The living structures cannot save a large amount of energy and hence they collect them in the form of ATP and electrons.To learn more about the importance of electrons in living organisms follow the link:
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2. Natural selection is an example of a mechanism of evolution. Does this mechanism produce a change
in individuals or populations? Explain.
Answer:yes
Explanation:natural selection does produce a change in individuals as well as populations. Explanation: Natural selection is a process through which mother nature screens for the organisms that are best adapted to survive in a habitat.
Which of the given scenarios is a direct effect of the absence of carbon dioxide during photosynthesis? The electron transport chain of the light‑dependent reactions would be unable to synthesize NADPH. The regeneration phase of the Calvin cycle would be unable to replenish the sugar RuBP. The carbon fixation stage of the Calvin cycle would be unable to synthesize the sugar 3‑PGA. The photosystem of the light‑dependent reactions would be unable to capture the energy from photons.
Answer:
The electron transport chain of the light‑dependent reactions would be unable to synthesize NADPH. and The photosystem of the light‑dependent reactions would be unable to capture the energy from photons.
Explanation:
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Woodpeckers and squirrels fight for nesting rights in the same holes and spaces in trees, while the lions and cheetahs of the African savanna fight for the same antelope and gazelle prey. Which of the following statements about these relationships is accurate?
A. These are examples of competition because the organisms are fighting for resources.
B. These are examples of predation because the organisms are trying to take each other’s food and homes.
C. These are examples of predation because lions and cheetahs eat woodpeckers and squirrels.
D.These are examples of competition because no organisms are helped or harmed.
Answer:
a
Explanation:
both of the cases the organisms are fighting for a resource
A. These are examples of competition because the organisms are fighting for resources.
How Competition and predation are two different types of relationships ?Competition and predation are two different types of relationships that can exist between different organisms in an ecosystem. Competition occurs when two or more organisms are fighting for the same resources, such as food, water, or shelter.
This can occur within or between different species. In the example given in the question, woodpeckers and squirrels compete for nesting rights in the same holes and spaces in trees, while lions and cheetahs compete for the same antelope and gazelle prey.
On the other hand, predation occurs when one organism (the predator) hunts, kills, and consumes another organism (the prey). This type of relationship is often seen between carnivores and herbivores, or between animals and insects. In the example given in the question, lions and cheetahs are predators that hunt and consume antelope and gazelle prey.
It is important to note that in both competition and predation, one organism may benefit while the other is harmed.
For example, in predation, the predator benefits by getting food while the prey is harmed by losing its life. In competition, one organism may gain access to the resources while the other loses out, which can affect their ability to survive and reproduce.
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The image below shows a type of mutation called a(n) _________.
Answer:
deletion
Explanation:
The____ of an ecosystem is based on wheather the population in the system destorys the natural resources of the system
Answer: immense
immense in the blank
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Scientists build models based on what they know from previous research to derive testable hypotheses. Independently, both Watson and Crick and their competitor Linus Pauling constructed an incorrect triple helix model with the nitrogenous bases arranged so they were on the exterior of the molecule and the phosphate groups on the interior. Although their model was wrong, what assumption made it reasonable to build a model with the bases projecting to the outside
Answer:
Nitrogenous bases contain the genetic information, their amount is variable among different species, and the arrangement of these bases is also variable among different species
Explanation:
Both Watson-Crick and Pauling's DNA models considered that DNA nitrogenous bases (i.e., Adenine, Cytosine, Thymine and Guanine) contain the genetic information that determines the characteristics of living organisms. Moreover, both DNA models also considered that nitrogenous base composition varies between species, as well as the arrangement of these bases in the DNA chain also varies between species. Based on these features, Linus Pauling considered that a model where nitrogenous bases would be arranged on the outside of the DNA molecule would be easier for the DNA molecule to be replicated, transcribed, or repaired. Although incorrect, Pauling's DNA triple helix model was fundamental to develop the helical (double-stranded) structure of DNA, which was finally discovered by Watson and Crick in 1953.
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Answer:
I don't understand the question you sent me
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Answer:
on what question should i help u with?
Explanation:
8. Which statement correctly describes one way ocean currents affect a region?
Deep ocean currents push into estuaries, creating sand deposits that form barrier
islands.
Cold ocean currents along the equator increase evaporation rates, creating circular
winds that produce tropical storms.
Warm ocean currents keep coastal air temperatures warm, creating moderate
climate conditions in coastal regions.
D. Deep ocean currents move water from polar seas toward the equator, creating drafts
of cold air that blow over polar regions.
O more
Answer:
sorry i don't know
Explanation:
Which statement correctly describes one way ocean currents affect a region?
Deep ocean currents push into estuaries, creating sand deposits that form barrier
islands.
Cold ocean currents along the equator increase evaporation rates, creating circular
winds that produce tropical storms.
Warm ocean currents keep coastal air temperatures warm, creating moderate
climate conditions in coastal regions.
D. Deep ocean currents move water from polar seas toward the equator, creating drafts
of cold air that blow over polar regions.
O more
3. What happens if the re-uptake transporter is blocked?
Answer:
It would result in augmentation of conduction of nerve impulse at those synapse.
Explanation:
Reuptake is one of the method of removal of neurotransmitters from the synaptic cleft. During reuptake, neurotransmitters are actively taken back into the neurons that released them.
Which set of sex chromosomes do females have
Explanation:
females have the set XX and males have XY
Females have a set of two X chromosomes
1. What salts do volcanoes add to seawater? How are these salts added
Answer:
Volcanic eruptions spew out a bunch of water vapor and carbon dioxide and other gasses like chlorine. The chlorine dissolves into the ocean and then combines with the sodium to get sodium chloride, or table salt.
Explanation:
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In system 1, glucose will move ___________ Sac 1 because of ___________.
a. out of; diffusion
b. in to; diffusion
c. out of; osmosis
d. in to; osmosis
Explanation:
The answer is c in my understanding
help me pleaseeeeeeee
Answer: 1. Its Structure. The ATP molecule is composed of three components. ... These phosphates are the key to the activity of ATP. ATP consists of a base, in this case adenine (red), a ribose (magenta) and a phosphate chain (blue). 2. Adenosine 5'-triphosphate, or ATP, is the principal molecule for storing and transferring energy in cells. It is often referred to as the energy currency of the cell and can be compared to storing money in a bank. 3. All living things use ATP. In addition to being used as an energy source, it is also used in signal transduction pathways for cell communication and is incorporated into deoxyribonucleic acid (DNA) during DNA synthesis. 4. All living things use ATP. In addition to being used as an energy source, it is also used in signal transduction pathways for cell communication and is incorporated into deoxyribonucleic acid (DNA) during DNA synthesis. 5. Adenosine Triphosphate is a nucleotide molecule with three phosphate groups joined in a row. ... When the third phosphate group is broken away from the ATP molecule, the stored energy is released. This, smaller amount of energy can then be safely used in other cellular reactions of life processes. ATP (adenosine triphosphate) has three phosphate groups that can be removed by hydrolysis to form ADP (adenosine diphosphate) or AMP (adenosine monophosphate). The negative charges on the phosphate group naturally repel each other, requiring energy to bond them together and releasing energy when these bonds are broken. 5. These three phosphate groups are linked to one another by two high-energy bonds called phosphoanhydride bonds. When one phosphate group is removed by breaking a phosphoanhydride bond in a process called hydrolysis, energy is released, and ATP is converted to adenosine diphosphate (ADP). 6. When one phosphate group is removed by breaking a phosphoanhydride bond in a process called hydrolysis, energy is released, and ATP is converted to adenosine diphosphate (ADP). ... This free energy can be transferred to other molecules to make unfavorable reactions in a cell favorable. the first box is called energy added and the second box towards the questions is energy released. brainliest?
Explanation:
How is the energy of chemical processes coupled in metabolic pathways?
Answer:
Energetic coupling of chemical processes in metabolic pathways Biochemical systems couple energetically unfavorable reactions with energetically favorable reactions. These reactions can be part of catabolic pathways where complex substances are broken into simpler ones with the release of energy or anabolic pathways where complex molecules are synthesized with an input of energy.
Explanation:
A population of capybaras contains 104 individuals. Studying them you discover that they have two types of alleles for a certain gene. The frequency of the recessive allele (c) is 0.3 and we assume that this is an ideal population with simple dominance. a. Calculate the frequency of the dominant allele, C. b. Calculate the genotype frequencies in the next generation (F1) c. Calculate the phenotype frequencies of F1 d. Calculate the heterozygosity (H) e. Calculate the number of heterozygous individuals in the wild population
Answer:
a.
f(C) = p = 0.7b.
F(CC) = p² = 0.49 F(cc) = q² = 0.09 F(Cc) = 2pq = 0.42c.
F(C-) = 0.91F(cc) = 0.09d.
F(Cc) = 2pq = 0.42e.
43.68 individuals CcExplanation:
Due to technical problems, you will find the complete explanation in the attached files
CAN SOMEONE PLEASE HELP ME WITH THIS SCIENCE QUESTION
Answer:
A biomass
Explanation:
Hopefully this should be it ive learned this in 9th grade
Answer:
Biomass energy
Explanation:
Biomass energy is energy generated or produced by living or once-living organisms. The most common biomass materials used for energy are plants, such as corn and soy, above. ref: https://www.nationalgeographic.org/encyclopedia/biomass-energy/#:~:text=Biomass%20energy%20is%20energy%20generated,heat%20or%20converted%20into%20electricity.
So when they are burned they all relate to combustion. The other three are different things. tidal energy comes from waves of water, hydro energy also comes from water, wind energy is from wind
Which organism described below makes its own food?
yoo yoo ill rlly apriciate if someone helps me
If one abiotic factor changed drastically, what effect would that have on the ecosystem?
if a plant is adapted to low temperatures and the specific are where it lives, has a change in its temperature this plant will die and this area will no longer support life, which is due to the change in abiotic factor
Butterflies exposed to radiation leaking from a damaged nuclear power plant in Japan have been observed to have malformed legs and Tanner and wings.For future butterflies to have structural abnormalities and gene mutations what must be present in the affected butterflies
Answer:BODY CELLS
Explanation: dont delete its true