Compare and contrast prokaryotes and eukaryotes

Answer:

A. play a role establishing and maintaining membrane lipid asymmetry

Explanation:

Proteins that move move certain phospholipids between leaflets are transmembrane proteins via "flip-flop" transition have also the possibility to maintain membrane lipid asymmetry. There are few types of such proteins:

Because of the action of those proteins, cytosolic side of plasma membrane differs from exoplasmic side (asymmetry).

Answer: Law of Independent Assortment

Explanation:

The example only shows that the alleles the offspring received for one gene does not influence the allele for another gene, since the curly/ strait haired gene clearly does not affect the white/ brown hair gene.

The mating of two curly-haired brown guinea pigs resulting in offspring with different variations in hair color and type illustrates Mendel's Law of Independent Assortment.

The mating of two curly-haired brown guinea pigs resulting in offspring with different variations in hair color and type illustrates Mendel's Law of Independent Assortment.

This law states that genes do not influence each other with regard to the sorting of alleles into gametes, and every possible combination of alleles for every gene is equally likely to occur.

For example, in the case of the guinea pigs, the gene for hair color and the gene for hair type are inherited independently of each other, resulting in the various combinations of brown and white hair colors and curly and straight hair types in the offspring.

Answer:

cellular organization, reproduction, metabolism, homeostasis, heredity, response to stimuli, growth and development, and adaptation through evolution

Explanation:

Answer:

DNA has thymine; RNA has uracil

DNA is a double helix; RNA is single stranded

DNA cannot leave the nucleus; RNA can

DNA has deoxyribose; RNA has ribose

That's easy! Each sugar unit in DNA and RNA bind to form one of four nucleotide bases. Both the DNA and the RNA use the bases A,C and GB. While DNA uses T, RNA uses U. The sequence of bases along the strands of DNA and RNA is the genetic code that tells the cell how to make proteins. In DNA, the bases of each strand bind to the bases on the other strand, forming the double-helix structure. In DNA, A’s can only bind to T’s and C’s can only bind to G’s. The structure of a DNA helix is preserved in a protein-RNA cocoon called a chromosome.

The answer is C.

A very high magnitude star is difficult to see from Earth. That’s because it is very far away. A star that far away won’t be able to radiate heat like those that are closer to Earth.

Wetlands are also called the natural kidney of environment because they perform the same functions of absorbing the wastage like nitrogen and phosphorus as our kidney do.

Answer:

B. Wetlands.

The Wetlands are known as the kidneys of the environment because of the natural process that take place within the wetlands.

Answer:

be part of the cell signaling process

Explanation:

Glycoproteins and glycolipids are proteins and lipids with carbohydrate chain attached to it. They are an important component of the cell membrane with many roles:

Glycoproteins and glycolipids in the cell membrane function to aid cell identification and interaction with the environment. They form the glycocalyx, which facilitates cell recognition, communication, and attachment. Additionally, they assist in maintaining fluid balance and performing various roles related to nutrient breakdown and hormone reception.

A major function of glycoproteins and glycolipids in the cell membrane is to facilitate cell identification and interaction with the external environment. Together, they form the glycocalyx, a carbohydrate-rich coating that aids in cell-cell recognition, interaction, and adhesion. The glycocalyx distinguishes one cell from another, allowing immunity cells to differentiate between 'self' and 'non-self' cells and to communicate with the external environment effectively.

These proteins and lipids also play an important role in maintaining fluid-electrolyte balance, as they attract large amounts of water to the cell's exterior surface. This not only aids in interaction with the watery environment but also helps the cell to obtain substances dissolved in water.

Furthermore, the carbohydrate tags on glycoproteins in particular can serve different functions, such as binding to another cell, containing receptors for hormones, or having enzymes to break down nutrients.

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Answer:

Share valence electrons

Explanation:

Covalent bonds are also known as molecular bonds. This is the type of bond that occurs between non-metals and non-metals. This type of bond can happen between two of the same elements or with other elements that are usually positioned near each other in the periodic table.

This is different from ionic bonds where atoms are lost or gained. This type of bonds occur between metals and non-metals.

Answer:

The use of ladybugs and praying mantises to consume insect pests in gardens is an example of biological control of insect pets.

This is the example of Biological control of pest.

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Answer:

improvements in both plant and animal food resources

Explanation:

Genetically modified foods have benefits such as one answer choice listed. GM foods DO foster improvements in both plant and animal food resources. This is a positive rather than a negative.

Answer:

C

Explanation: Is C, because Genetically modified foods have benefits such as one answer choice listed. GM foods DO foster improvements in both plant and animal food resources. This is a positive rather than a negative.

A fly has two alleles for the color of its eyes. The green allele is recessive, and is represented by q. The blue allele is dominant, and is represented by p. The value for it is 0.45.

The law predicts that both genotype and allele frequencies will be constant because they are in equilibrium when mating is random in a large population with no disruptive factors.

Several factors, like as mutations, natural selection, nonrandom mating, genetic drift, and gene flow, have the potential to upset the Hardy-Weinberg equilibrium. By bringing new alleles into a population, mutations, for instance, disturb the balance of allele frequencies.

Hardy-Weinberg equilibrium by altering gene frequencies. This occurs because specific alleles can either benefit or impair reproductive success.

Therefore, A fly has two alleles for the color of its eyes. The green allele is recessive, and is represented by q. The blue allele is dominant, and is represented by p. The value for it is 0.45.

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Using the Hardy-Weinberg equilibrium equation, the genotype frequencies of a population can be calculated. In this case, the frequencies are approximately; homozygous dominant(blue eyes) = 0.306, heterozygous = 0.494, and homozygous recessive (green eyes) = 0.2.

This question is about understanding genetic inheritance and the basics of population genetics. The Hardy-Weinberg equilibrium can be used for this purpose. It theorizes that both allele and genotype frequencies will remain constant in a population from generation to generation if certain conditions are met.

Given that the green allele(q) is recessive and occurs in 20 out of 100 organisms (or 0.2 of the population), q2(the rate of homozygous recessive green-eyed flies) can be calculated as 0.2. After that, we can find q as sqrt(0.2) = 0.447. Based on this, p can be found as 1 - q = 1 - 0.447 = 0.553.

With these values, we can substitute into the Hardy-Weinberg equation p2 + 2pq + q2 = 1, to get the frequencies of the other genotypes: homozygous dominant(blue/blue eyes) - p2 = (0.553)2 = 0.306; heterozygous - 2pq = 2*0.553*0.447 = 0.494.

In summary, the genotype frequencies are approximately; homozygous dominant(blue eyes) = 0.306, heterozygous = 0.494, and homozygous recessive (green eyes) = 0.2.

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Answer:

A. The middle ear

Explanation:

In the anatomy of humans and various other tetrapods, the eardrum, also called the tympanic membrane or myringa, is a thin, cone-shaped membrane that separates the external ear from the middle ear.

The “middle ear” is the part which consists of eardrum.

Option: A

Explanation:

The organ which helps humans to hear is the ear which is consisted of three parts: the outer, inner and the middle ear. The “outer ear” consists the “pinna” which projects from the “side of the head”, the “inner end” of which is “closed by the eardrum” which lies in the middle ear. The outer ear performs the task of collecting the sound waves and transferring them to the eardrum. The middle ear also consists of three tiny bones named collectively as hammer, anvil and stirrup, they are called the auditory ossicles.

Answer:

Most restriction enzymes recognize sequences of 20-25 bp in length

Explanation:

Sequences of DNA that are recognized by restriction enzymes are called recognition (or restriction) sites are usually are between 4 and 8 bases long. Many of them are palindromic, which means that they are the same when you read it backwards and forwards (mirror-like).

Restriction enzymes are endonucleases, which means they cut phosphodiiester bonds within DNA. These enzymes are from prokaryotic organisms (archea and bacteria) which use them as defending mechanism against viruses. Prokaryotes protect their own DNA via methylation, performed by methyltransferase.

The incorrect statement about restriction enzymes is that most recognize sequences of 20-25 bp in length; they commonly recognize sequences of 4-8 bp.

The statement regarding restriction enzymes that is NOT true is "Most restriction enzymes recognize sequences of 20-25 bp in length." In fact, most restriction enzymes recognize and bind to specific palindromic sequences of DNA that are significantly shorter, typically ranging from 4 to 8 base pairs in length. These enzymes can generate either sticky ends or blunt ends when they cut DNA, depending on the specific enzyme and its recognition sequence. Additionally, bacteria can protect their own DNA from these enzymes through the addition of methyl groups to the recognition sequences, a process known as methylation, thus preventing the restriction enzyme from cutting the bacterial DNA.

The largest island of Hawaii has multiple biomes. The reason for this is the topography of the island. In the middle of the island there's an enormous very high volcano. One side of the island manages to get lot of precipitation, the windward side, thus this part of the island is dominated by dense rainforest and animals that are adapted to wet tropical conditions. The other side of the island though receives much less precipitation because the high volcano stops the wet air masses to reach it, so it is mostly dry and warm air masses that reach this part of the island, which is the leeward side. That makes it much drier, semi-arid even, thus it is dominated by grasses and animals adapted to live in that biome. The side parts of the island that are neither on the windward nor on the leeward side receive precipitation, less than the windward side, but more than the leeward side. This makes them be dominated by shrubs, with trees that are more scattered, so the fauna is adapted to this kind of more temperate conditions for living.

Answer:

what he said

Explanation:

Answer:

B) fats

Explanation:

Common hepatic duct is s the part of the biliary tract which means that is involved in the secretion of bile.

Bile salts secreted from the bill have an important role in emulsification of lipids (fats). They have the ability to aggregate around lipids thanks to their amphipatic nature. Amphipatic nature means that they have hydrophobic side which binds directly to lipids and hydrophilic side which are faced outwards. Lipids enveloped with bile salts are called micelles.

Formation of micelles increases the surface area of fat, which is appropriate for the the action of the enzyme pancreatic lipase (perform digestion of triglycerides).

Answer:

d

Explanation:

Summation of twitches and tetanus contractions explained in muscle physiology.

Summation of twitches: Summation in vivo occurs when successive stimuli are added together, resulting in greater contraction of the motor unit due to the release of more Ca++ ions triggering additional sarcomeres to contract. This leads to increased muscle tension.

Tetanus contraction: Complete tetanus is produced when the stimulus frequency is so high that the relaxation phase disappears completely, resulting in continuous contractions. This is achieved by increasing motor neuron signaling and activating more motor units in a muscle.

Production of summated contractions and tetanus: By increasing the frequency of motor neuron signaling, muscle tension rises, leading to incomplete tetanus which further progresses to complete tetanus, producing sustained, strong muscle contractions.

Answer:radiocarbon dating

Explanation:

Radiocarbon dating is a method for determining the age of an object continuing organic materials by using the peppering for Radiocarbon ,a radio active isotope of carbon.

This method was originally done by beta counting device which counted the amount of beta radiation emitted by the C14 of the decaying substance

More recently the method called accelerated mass spectrometery has become the method of choice

Radiocarbon dating is a method used to date organic materials by measuring the amount of carbon-14 left after an organism's death. It requires calibration against other dating methods due to atmospheric variations of carbon-14 over time and can date samples up to about 58,000 to 62,000 years old.

Radiocarbon dating, also known as carbon-14 dating or 14C-dating, is an absolute dating technique that is used to determine the age of organic materials. The method is based on the decay of the radioactive isotope of carbon called carbon-14, which is absorbed by organisms during their lifespan. As living organisms take in carbon, including carbon-14, it becomes part of their tissue. When they die, they stop absorbing carbon, and the carbon-14 present starts to decay at a known rate, with a half-life of approximately 5730 years, meaning the amount of carbon-14 reduces to half its original amount during this period.

To date organic samples, scientists measure the amount of carbon-14 remaining. Because the production and concentration of carbon-14 in the atmosphere have varied over time, calibration against other reliable dating methods is often necessary. Techniques like dendrochronology (tree-ring dating) and analysis of ice cores help ensure the accuracy of radiocarbon dating results for materials up to about 58,000 to 62,000 years old, though some sources suggest it can be used for materials as old as approximately 70,000 years.

Radiocarbon dating is widely used in fields such as archaeology and geology but requires careful calibration and consideration of the sample's age and the historical levels of carbon-14 in the atmosphere.

B is the right answer

Answer:

Could be many things such as Autism, ADHD, Epilepsy, Arthritis, Diabetes etc

Explanation:

First answer: waxing crescent.

Second answer: Best answer is 2 for sure

Answer:

Either A or B

Explanation:

Answer: A. Step 5: Cite Your Sources

Explanation:

A citation is a documentation and recognition of the research work and references used for the purpose of present research. Apart from research work other original sources such as idea, images and information can be used for the purpose of reference. In the body of a paper,small acknowledgments of the source of information used is required to be mentioned. In the end of the research article or thesis the entire list is framed for the references of the authors or other researchers.  

I don’t know I did not even know they do that

There are 46 chromosomes in each body cell. Human gametes have 23 since they’re haploid cells though

There are 23 chromosomes in each human cell

30.2 inches is the world record for the longest dog’s tail.

Answer:

the statement that  best explains why a variety of monomers are needed to produce the complex molecules necessary for life is that Different monomers contain different kinds of atoms needed to produce different end products. 

Monomers are small organic molecules that join together via dehydration synthesis reactions to form larger biological molecules known as polymers. Different types of monomers can combine in various ways, creating a diverse group of macromolecules. Three major classes of biological macromolecules - complex carbohydrates, nucleic acids, and proteins - are composed of monomers that link together through dehydration synthesis reactions.

Answer:

B.

Organisms use some of the energy they take in for life process... Like respiration, thermoragulation, etc

t = transfer

It is used to translate mRNA by the ribosomes to make a new polypeptide.  

Answer:

They package assembled proteins.

Diffusion is the movement of the molecule (in gaseous form) from a region of high concentration to a region of low concentration until equilibrium is achieved.  The movement of these molecules is always down the gradient and the movement of the molecules is stochastic

Endocytosis is the uptake of large molecule, that can't pass through the pores of the cell membrane, by a cell. It involves the invagination of the cell membrane engulfing the materials and budding off into a vesicle. The materials are therefore internalized and are transported into the cell.

Exocytosis is the reverse of endocytosis. The material comes from inside of the cell and carried in a vesicle. The vesicle binds with the cell membrane and the part in contact with the cell membrane diffuses off. The contents of the vesicle are therefore emptied outside of the cell.  

Phagocytosis is the ingestion of an organism such as bacteria by another cell such as a phagocytic immune cell or amoeba. The process of phagocytosis is similar to that of endocytosis. However, this process is aided by cell membrane receptors on the surface of the phagocyte that recognizes and binds the epitopes of the bacteria.

Osmotic pressure is the bare minimum pressure required to be exerted to prevent the movement of water, by osmosis, from a low concentrated solution to a higher concentrated solution through a semipermeable membrane.

Answer:

b. glomerular filtration rate

Explanation:

Glomerular filtration rate is a measure of blood filtration per minute.

When blood enters the glomerulus, it has some pressure which is called outward pressure. Opposite to this pressure, inward pressure consists of colloidal osmotic pressure and capsular hydrostatic pressure.

The net filtration pressure is the difference between outward and inward pressure.

Glomerular filtration rate is highly regulated by kidneys themselves (constriction and dilatation of afferent arteriole), via neural or hormonal control (e.g. via atrial natriuretic peptide).