In eukaryotic cells, how do transcription factors act to control gene expression?

A. They remove introns from pre-mRNA.
B. They bind to regulatory regions of DNA near the genes.
C. They insert themselves into DNA near the beginning of a gene.
D. They code for the synthesis of RNA polymerase.

The correct answer is: There are 20 primary teeth, and by 24 months of age most children have all 20.

Primary teeth also known as deciduous teeth, milk teeth, are the first set of temporary teeth in the growth development of humans. They develop during the embryonic stage of development, become visible in the mouth during infancy (erupt) and usually get replaced by permanent teeth around age six (the first tooth). The primary teeth consist of 4 central incisors (one in each quadrant), 4 lateral incisors, 4 canines, 4 first molars, and 4 secondary molars.

There are 20 primary, or 'baby', teeth that most children have by the age of 24 months. These temporary teeth eventually fall out and are replaced by 32 permanent adult teeth.

The true statement concerning primary teeth is: There are 20 primary teeth, and by 24 months of age most children have all 20.

Primary teeth, also known as 'baby teeth', begin to erupt in infants around 6 months of age and continue until about 24 months of age. These teeth are temporary and eventually fall out to be replaced by permanent teeth, which number 32 in total in an adult mouth.

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If  crossing over occurs only between two chromatids, these crossover chromosomes produce the recombinant gametes and the remaining two are similar to the parentals.

The answer is a

If crossing over occurs between two chromatids on a single pair of homologous chromosomes, then the number of gametes which will have a recombinant phenotype will be 2 of the 4. Thus, the correct option is C.

Crossing over is a cellular process which takes place during the meiotic division when the chromosomes of the same type in the cell are lined up. When two chromosomes, one from the mother side and one from the father side line up, then some part of the parental chromosome can be switched between the two parents. The two chromosomes contain the same genes, but may have different forms of the genes with them.

If crossing over occurs between any two chromatids which are present on a single pair of homologous chromosomes in the cell, then two out of the four resulting gametes will have a recombinant chromosome and two will have the parental chromosome.

Therefore, the correct option is C.

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Stimulated by the action of the ions on its receptors, the pump transports them in opposite directions against their concentration gradients. ... The sodium-potassium pump carries out a form of active transport—that is, its pumping of ions against their gradients requires the addition of energy from an outside source.

Answer:

The kidney first removes some water from the blood by filtration, and then returns water to the blood by reabsorption.

The answer is 2

Medications known as glucocorticoids (prednisone and cortisone, etc). are known to have a side effect that increases blood glucose (sugar) since these drugs promote glucose production in the liver.

Osmotic movement from the roots to the leaves

According to Max Weber, what factor or factors are responsible for social stratification?

B. class, prestige, and power

~Hope this answers your question!~

Max Weber cited class, prestige, and power as the key factors responsible for social stratification, which are interconnected yet distinct elements influencing an individual's social standing. The correct option is: B. class, prestige, and power.

According to Max Weber, the factors responsible for social stratification are class, prestige, and power. Weber's comprehensive theory of social stratification encompassed not only economic positioning but also the dimensions of status and the ability to influence others.

Weber acknowledged that while wealth, power, and prestige frequently go hand-in-hand, they do not always overlap and must be considered as separate yet interconnected factors contributing to an individual's social standing.

The correct answer is: halophiles

Halophiles on Greek means "salt-loving", so organisms that belong to this group are extremophiles (survive in extreme environment) that live in high salt concentration. Halophiles usually belong to Archaea, but can be found in Bacteria domain and sometimes even Eukarya.

Halophiles can survive on very salty environments (with a concentration of salt that is five times greater than the salt concentration of the ocean.

Answer:

D. Metaphase. It is the third of the five phases of biological cell division, or more specifically, the division of what is inside that cell's nucleus.

Explanation:

The M-phase is the most dramatic period of the cell cycle, involving a major reorganization of virtually all cell components.

Not have kids, adopt them, or maybe find a different dad if her carriers the disease. She should follow normal check ups. She should take 400mg of folic acid to help the spin grow better. A multi-vitamin and some vitamin B would reduce it by 70%

Answer:

- Only some molecules move from a higher concentration to a lower concentration.

Explanation:

Selective permeability of the membrane means that membrane regulates which molecules (ions, substances) and how much of them can pass through it. Permeabilty of the membrane is determinated by its structure (hydrophobic heads and hydrophilic tails, cholesterol), temperature

The simplest form of transport through membrane is diffusion, passive transport of the molecule down its concentration gradient 9from higher to lower concentration). Some molecules can move down their concentration gradients directly, some have to pass through membrane proteins in a process called facilitated diffusion while others require energy and use active transport.

Describe how phloem is affected if the leaves start to die off. (3 points) The phloem is effected by the deprivation of water from the disease of the tree, as a result the metabolism of the plant will shift down ward causing the phloem to decrease due to the dying of the leaves.

The role of phloem which transports sugars and nutrients within a plant, will be diminished if the leaves start to die due to reduced photosynthesis and sugar production. Stomata are vital for transpiration and photosynthesis, influencing both water transport through xylem and nutrient transport via phloem.

If the leaves of a plant start to die off, the role of the phloem would be affected significantly. The primary function of phloem in plants is to transport sugars and nutrients produced during photosynthesis from the leaves to various parts of the plant, including the roots and growing tissues. This process is known as translocation. When the leaves begin to die, photosynthesis decreases, which leads to a reduction in the production of these photosynthates (sugars). Consequently, there will be fewer sugars for the phloem to transport, which can impact the growth and overall health of the plant.

In plant classification, both xylem and phloem are found in vascular plants, which include seedless vascular plants, gymnosperms, and angiosperms. While phloem carries nutrients and sugars from the leaves to the rest of the plant, xylem transports water and minerals from the roots upwards to the leaves. The xylem relies on transpirational pull, a process where water evaporates from the leaves through structures known as stomata, generating a negative pressure that draws more water from the roots through the xylem vessels.

Stomata are crucial for photosynthesis and gas exchange but also play an important role in regulating water loss. When functioning correctly, stomata can open and close to control transpiration and hence the transpirational pull. Without properly functioning stomata and guard cells, a plant would not be able to regulate water loss efficiently, which could lead to dehydration and impaired nutrient transport.

The conversion of light energy to chemical energy first occurs when electrons are transferred from excited photopigments to an electron carrier in a photosystem (pigments together with proteins organized into complexes and located in the thylakoid membranes of chloroplasts).

The light-dependent reactions is one of the two successive phases that occur during photosynthesis (other is light-independent reactions). The light-dependent reactions use sunlight energy (electromagnetic radiation) to make the energy storage molecule ATP and the reduced electron carrier NADPH. In the light-independent reactions (also called Calvin cycle), CO2 is absorbed and fixed in order to build three-carbon sugars (glyceraldehyde-3-phosphate) and this process is fueled by, ATP and NADPH from the light reactions.

The answer is; E

CDK is only active when they bind cyclin. In the CDK-cyclin complex, they are able to phosphorylate their substrates on serines and threonines. Particular CDKs are specific to their cell cycle phase. CDKs have maintained more or less constant levels in a cell and the cyclin levels are what fluctuate.

Cdk, or Cyclin-Dependent Kinase, is a protein that is maintained at constant levels throughout the cell cycle and requires cyclin to become catalytically active. It is a key regulator of the cell cycle.

The protein that is maintained at constant levels throughout the cell cycle and requires cyclin to become catalytically active is Cdk (Cyclin-Dependent Kinase).

Cdks are a type of protein kinase and are key regulators of the cell cycle. They are present in the cell at constant concentrations and their activity is controlled by the synthesis and degradation of their regulatory subunits, the cyclins.

As cyclin levels increase, the Cdk-cyclin complexes are formed and become active, which helps push the cell through different stages of the cell cycle.

The protein that requires cyclin to become catalytically active and is maintained at constant levels throughout the cell cycle is protein kinase.

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Answer:

The question lacks options, the options are:

A) Water turns to steam when boiled over a Bunsen burner.

B) Carbon combines with oxygen to form carbon dioxide gas.

C) Water breaks down into hydrogen and oxygen gases.

D) Limestone breaks down into lime and carbon dioxide when heated.

The answer is A

Explanation:

Changes occur from one state of matter to another. This change can either be physical or chemical. A physical change is a change in which no new substances are formed as products and it can be reversed to form the reactants again. Chemical change, on the other hand, forms new substances as products by the rearrangement of chemical bonds in the resulting molecule.

In the case of this question, water turning into steam when heated, a process called evaporation is an example of physical change because water, which is a liquid is just changing its state to gaseous (steam). Hence, no new substance is formed. The steam can easily be reversed back to water via CONDENSATION.

In the other options, new products are formed either by breaking the chemical bonds between molecules or rearranging them. Hence, options B, C and D are examples of chemical change.

B,

since males only need one recessive trait for it to show, and the father is not colorblind, the mother at least has to be a carrier for the colorblindness trait.

The true statement about the mother of this family tree is that she is a carrier for color blindness.

The correct option is (B).

Color blindness is a disability in which you are unable to see colors normally. Color deficiency is another name for it.

It is a condition in which a person is unable to distinguish between different colors.

The most common colors are greens and reds, but it can also happen with blues.

This condition is only dominant in males, but females carry this disability as recessive carrier, so they can transfer this gene to the next generation.

Thus, option (B) she is a carrier for color blindness is correct.

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Answer:

bbbb and ybyb

Explanation:

Since blue is dominant and white is recessive,, one blue present will result in blue feathers. byyy will also result in a blue bird.

Answer:

Option E

Explanation:

Please see the attachment

Final answer:

Bones remain intact after extensive decomposition and can assist in personal identification of remains.

Explanation:

Among the options provided, option C. Bones remain intact after extensive decomposition and can be used to assist in personal identification of remains. Blood, hair, and muscle structure are not as durable and don't preserve as well over time, especially in conditions conducive to decomposition.

Bones are organs in the body made up of connective tissue. The connective tissue is hardened by mineral deposition, which is why bone is rigid. In a living body, bone contains two distinct layers: compact (cortical) bone on the outer layer and spongy (trabecular) bone on the inner layer. These layers help with the macroscopic identification of bones.

For example, in a fire scene, bones can break into pieces and be mistaken for other materials. However, forensic anthropologists can recognize the anatomical and layered structure of bone to distinguish it from other substances.

This is false, it takes distance into account for brightness

20% beacuse adinine always pair with thymine therefore the percentage of adinine and thymine is 20+20 = 40% , thus the remaining 60% is of guanine and cytosine

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Answer:

d. an onblique muscle layer

Explanation:

The alimentary canal has four main layers:

Mucosa (innermost layer which surrounds the lumen), submucosa (connective tissue with blood vessels, lymphatics, and nerves), muscular layer, serosa ( outermost layer of connective tissue).

Muscular layer is subdivided into:

• the inner- arranged in circular rings, prevents food from travelling backward  

•  outer layer- arranged longitudinally,  shortens the tract.

The stomach has an extra layer called inner oblique muscular layer (churning function).

The answer is C) Increase genetic variation and breed plants to contain the wild variety.

i think the answer is

a substance that is naturally found in the brain

The final electron acceptor is NADP.

The light-dependent reactions is one of the two successive phases that occur during photosynthesis (other is light-independent reactions). The light-dependent reactions use sunlight energy to make the energy storage molecule ATP and the reduced electron carrier NADPH. In the light-independent reactions (also called Calvin cycle), CO2 is absorbed and fixed in order to build three-carbon sugars (glyceraldehyde-3-phosphate) and this process is fueled by, ATP and NADPH from the light reactions.

The correct answer is: secretin

Secretin is a peptide hormone (produced in the S cells of the duodenum),  that regulates secretions in the stomach, pancreas, and liver. Secretin is secreted in response to acid in the duodenum, so its role is to stimulate duct cells of the pancreas to secrete water and bicarbonate (regulating water homeostasis).  

Secretin is the hormone that stimulates pancreatic secretions.

The hormone that stimulates pancreatic secretions is secretin. Secretin is produced by the duodenum in response to the presence of acid in the stomach. When secretin is released, it stimulates the pancreas to secrete bicarbonate into the small intestine to neutralize the acid. This helps to maintain an optimal pH for digestion in the small intestine.

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Answer:

Its D. Unsaturated on USATestprep. By the way, there is no such thing as semisaturated.

Answer: Option (D) is the correct answer.

Explanation:

It is known that density of water or 100 grams of water is 1 g/ml. As density is mass divided by volume then it is known that in 100 grams of water 99.2 grams of KBr can be dissolved at [tex]90^{o}C[/tex].

Therefore, it is obvious that solution will be unsaturated because 50 grams of KBr will completely dissolve in it.

As saturated solution is a solution which is unable to dissolve more solute. Whereas a solution is unsaturated when solute dissolves in it until the saturation point.  

Hence, we can conclude that if Marie and Calvin dissolve 50 grams of KBr in 100 grams of water at 90oC, the solution is unsaturated.

a) the membrane reseals

The membrane reseals, The correct answer is A.

A cladogram containing a zebra, bear, lion, and tiger, should look like this:

                                                       mammalia

                                                      I                 I

                                     carnivora                      perissodactyla

                                     I            I                                   I

                      arctoidea          feliformia                equidae

                       I                               I                              I

              ursidae                       felidae                    equini

                I                                      I                              I

          ursus                             pantherinae             equus

                                                       I                          

                                                  panthera

                                                  I            I

                             panthera tigris        panthera leo  

All four animals are part of the mammals, thus it is the closest relation they all have. Further, the lion, tiger, and bear are part of the carnivores, while the zebra is part of herbivores, thus purring the first three to be more closely connected. The bear than diverges into its own family, while the lion and tiger remain in the same, thus making them the most closely related. So we have the lion and tiger to be the closest, than comes the bear, being closer to them then to the zebra, and then comes the zebra which is connected with the other three much further back in the past.