How do spindle fibers help distribute chromosomes to daughter cells ?

Answers

Answer 1

Answer:

Spindle fibers play a vital role in ensuring the proper distribution of chromosomes to daughter cells during cell division, specifically in the process of mitosis and meiosis. These fibers are part of the cellular structure known as the mitotic spindle, which is responsible for separating the duplicated chromosomes and ensuring their accurate allocation to each daughter cell.

The formation of spindle fibers begins during the early stages of cell division when the centrosomes, also known as microtubule organizing centers, duplicate and migrate to opposite poles of the cell. As the cell progresses through mitosis or meiosis, the spindle fibers extend outward from the centrosomes and attach to the chromosomes.

The spindle fibers consist primarily of microtubules, which are dynamic protein polymers. There are two types of spindle fibers: kinetochore fibers and polar fibers. Kinetochore fibers originate from the centrosomes and connect to the specialized protein structures called kinetochores that assemble at the centromere region of each duplicated chromosome. These fibers exert tension on the chromosomes, aligning them at the cell's equatorial plane during metaphase.

During anaphase, the kinetochore fibers begin to shorten, pulling the sister chromatids apart. The shortening of the kinetochore fibers is powered by the depolymerization of microtubules at their kinetochore ends. As a result, each chromatid is directed towards the opposite poles of the cell.

Simultaneously, polar fibers, also known as interpolar microtubules, extend from one pole of the cell to the other. These fibers overlap in the cell's center and assist in separating the poles further apart, helping to elongate the cell during anaphase.

Overall, the combined action of kinetochore fibers and polar fibers ensures the accurate distribution of chromosomes to the daughter cells. The spindle fibers undergo a highly orchestrated process of assembly, attachment, tension generation, and depolymerization, all of which contribute to the successful partitioning of the genetic material during cell division.

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1. Which of the following best explains how Earth’s atmosphere protects life on the planet?It becomes less dense at higher altitudes.It consists of different layers of different thicknesses.It allows visible light to pass through completely.It contains gases that filter out ultraviolet radiation.2. Matthew has recently learned that Earth’s atmosphere is made up of nitrogen, oxygen, water vapor, and many other trace elements. Which of the following is NOT a way in which gases in the atmosphere are helpful to life on Earth?Carbon dioxide insulates EarthProtection against radiation from the SunBarrier against violent storms and lightningOxygen stays within the atmosphere3. Which of the following is a way the atmosphere helps maintain life on Earth?The atmosphere helps maintain a moderate temperature.The atmosphere draws water vapor from outer space.The atmosphere has air currents that rotate the planet.The atmosphere contains some gases that are toxic.keep her skin protected. She wonders what else the atmosphere does that she takes for granted each day. The atmosphere allows which of the following to happen?Meteorites to hit Earth’s surfaceChloroplasts producing oxygenReflection from the ocean's surfacePrecipitation and the water cycle5. Gases in the atmosphere are helpful to life on Earth because they offer protection from which of the following?Poisonous gases from starsHarmful radiation from the SunCollisions with other planetsViolent storms and lightning6. Without the atmosphere, life on Earth would not be possible. Which of the following is NOT an explanation for how Earth’s atmosphere protects life on the planet?It allows visible light to pass through completely.It contains gases that filter out ultraviolet radiation.It keeps Earth warm by trapping in heat.It protects life from ultraviolet rays of light.7. Alexander applies sunscreen to help provide protection from ultraviolet radiation. With what does the atmosphere provide protection for Earth?Thick layers of ice cloudsOzone in the upper atmosphereWater vapor in the lower atmosphereThe reflective surface of the ocean8. The atmosphere is often referred to as a blanket that covers Earth, keeping out harmful things and protecting life inside. Which of the following best represents a way in which the atmosphere helps maintain life on Earth?The atmosphere provides air for oxygen.The atmosphere controls the distance from the Sun.The atmosphere helps rotate the planet.The atmosphere provides protection from disease.9. Which two gases in the atmosphere are essential to life on Earth?Nitrogen and heliumCarbon dioxide and oxygenNeon and argonHelium and hydrogen10. The atmosphere is made up of four different layers: the thermosphere, mesosphere, stratosphere, and troposphere. Which of the following is NOT true regarding the composition and structure of the the atmosphere?The structure maintains safety against harmful UV rays.The composition allows necessary gases for life on Earth.The atmosphere allows Earth to rotate around the Sun.The atmosphere is made up of nitrogen, oxygen, and a variety of gases.

Which of these best orders the rock layers from the youngest to the oldest? (1 point)1) Layer A - Layer B – Layer C – Layer D
O2) Layer A - Layer D - Layer B - Layer C
O 3) Layer D - Layer C - Layer B - Layer A
4) Layer D - Layer A - Layer C - Layer B

Answers

Answer:

D-C-B-A

Explanation:

Oldest crust on the bottom

3) layer D, layer C, layer B, layer A

When compared to a cheek cell, a muscle cell contains more(A) vacuoles
(B) ribosomes
(C) mitochondria
(D) chromosomes

Answers

When compared to a cheek cell, a muscle cell contains more ribosomes and mitochondria (Option B and Option C).

Mitochondria are the energetic centers of the cell. In mitochondria, ATP (the energy coin of the cell) is made from ADP and phosphate.

A muscle cell has high energy requirements. Therefore, muscle cells need to have many mitochondria.

The ribosome is the cellular organelle responsible for protein synthesis.

A muscle cell is mainly composed of proteins in orderto carry out muscle contractions and thus produce movement.

Actin and myosin are the main proteins found in muscle cells since they are required to produce contractions.

In conclusion, when compared to a cheek cell, a muscle cell contains more ribosomes and mitochondria (Option B and Option C are correct).

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Final answer:

Muscle cells contain more mitochondria compared to cheek cells.

Explanation:

When compared to a cheek cell, a muscle cell generally contains more mitochondria (option C). The reason for this difference lies in the cells' respective functions. A muscle cell requires a larger amount of energy to contract and exert force, and mitochondria are the organelles that produce ATP, the cell's primary energy source. Consequently, muscle cells need a high concentration of mitochondria to meet their energy demands.

Contrastingly, cheek cells (epithelial cells) primarily serve to protect and seal off the body, and to absorb and secrete substances. They don't have as heavy energy demands as muscle cells do, and therefore generally have fewer mitochondria. Both cell types have similar numbers of vacuoles, ribosomes, and chromosomes as they are essential to general cellular processes and not specific to cell types.

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During what part of the life cycle can an amphibian have both gills and lungs?

Answers

Hi there!

In the Juvenile (tadpole) stage, amphibians look somewhat similar to a fish. They however cannot have gills and lungs at the same time.

Hope this helps!

~DL

Answer:

metamorphic

Explanation:

Bone does not amplify sound during speaking is _____________________

Answers

Answer:

Bone is a solid tissue, which resists a high impact of forces in its major axis.

The function of this fabric is not to transmit sounds, since it does not provide the elasticity, and the necessary elongation that is needed to generate the rope effect as in the case of muzzle cords.

Explanation:

The more rigid and less elastic the fabric is, the less sound it will transmit.

Sound strings, or mouth strings, are those that tighten, are flexible and resonate with different vibrations, in the case of bone tissue, sound vibrations are not influenced in their conformation because they do not have the ability to transmit them. .

The bone tissue, transmits impact forces or high newton levels, does not fulfill the function of transmitting vibrations and emitting sounds in terms of this type of vibrations and their frequencies.

7. How does the plant lichen quicken the weathering process? *(1 Punto)
They eat the rocks
They create new bacteria that breaks away rocks
They secrete acid that breaks away rocks
They eat the acid in rocks

Answers

Answer:

The correct answer is - They secrete acid that breaks away rocks

Explanation:

Lichen causes chemical weathering to break the rocks quickly which is the excretion of various acids like oxalic acid and many more organic acids that can cause a significant impact on the rock by dissolving minerals.

By breaking the rocks it forms the ground for the plant that will come later in place of the bare rocks by this chemical weathering process. An example of chemical weather is a change of the granite to clay with the help of hydrolysis.

When neither gene in a genotype pair is dominant and neither gene is recessive, the genes are said to be

Answers

when nither gene in a genotype pair is dominat nor recessive it is called co-dominance

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