The passage of large molecules through the cell membrane into the cell is called

The answer is just C and D if your using edgen

Answer:

The correct options are 3 and 4.

Explanation:

From the given graph it is clear that the turning points of the graph are (-1.6,-56), (0.8,11.4) and (2,0).

Using these points we can say that,

1. The given function increasing on [tex](-1.6,0.8),(2,\infty)[/tex].

2.The function is decreasing on [tex](-\infty,-1.6),(0.8,2)[/tex].

In interval [–2.5, –1.6), the function is decreasing.

In interval [–2, –1], first the function is decreases, after that the function increases.

In interval (–1.6, 0], the function is decreasing.

In interval [0, 0.8), the function is decreasing.

In interval (0.8, 2), the function is decreasing.

Therefore, the correct options are 3 and 4.

Explanation:

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As carbon dioxide (CO2) increases, the rate of photosynthesis increases. Photosynthesis consumes CO2 and then releases the O2 that will be used in cellular respiration. Cellular respiration consumes O2 to release CO2 that will be used in photosynthesis. And so the circle works.

Cell recognition protein in the plasma membrane that has carbohydrate attached to it.

Cell recognition proteins are glycoproteins that help to recognize pathogens. They can be found in red blood cells, white blood cells, platelets.  

Carbohydrates play the role of identifying a site for recognition and then attaching to it. They can be found in the plasma membrane of plants and animals and are attached to proteins and lipids.

Therefore, Cell recognition protein in the plasma membrane that has carbohydrate attached to it.

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Proteins that minimize fluctuations in pH are known as buffers, and their action is essential for maintaining stable conditions crucial for biological processes. These proteins contribute to the body's pH regulation, preventing the denaturation of enzymes and other proteins necessary for proper function.

Proteins that minimize fluctuations in pH are known as buffers. These buffers help to prevent the pH of the body from getting too high or too low, maintaining a stable environment crucial for the function of various biological processes, including enzyme activity. Proteins have the ability to buffer pH because they can react with both strong acids and strong bases, therefore preventing large swings in the pH levels. The property is also related to the isoelectric point (pI) of proteins, which is the pH at which a protein carries no net charge. At this point, proteins are least soluble and may precipitate out of solution, which is useful in some protein isolation techniques. The isoelectric pH is used in isoelectric focusing to separate proteins based on their charge under different pH environments.

Moreover, proteins are sensitive to pH changes; they can denature or change their shape when exposed to different pH levels. The body regulates pH and temperature, but certain proteins, known as chaperone proteins, assist with refolding proteins back into the correct shape if denaturation occurs. This highlights the necessity for regulating pH levels within biological systems to maintain protein stability, especially important in pharmaceutical applications where bacteria are used to produce proteins and are sensitive to pH variations.

Lichens can photosynthesize only because of the living algal partner, while Elysia chlorotica incorporates chloroplasts from algae into its cells.

Lichens are a symbiotic association between a fungus and an algae or a cyanobacterium. The fungus benefits from the photosynthetic activity of the algae or cyanobacterium, while Elysia chlorotica, the sea slug, incorporates chloroplasts from algae to perform photosynthesis.

Lichens are a symbiotic association between a fungus and an algae or a cyanobacterium. The fungus provides support and protection while the photosynthetic partner provides energy through photosynthesis. This relationship is considered to be a controlled parasitism, as the fungus benefits while the photosynthetic organism is harmed to some extent.

In contrast, Elysia chlorotica, the sea slug, is considered a photosynthesizing animal. It consumes algae and incorporates their chloroplasts into its own cells through a process called kleptoplasty. The slug then uses the chloroplasts to perform photosynthesis and produce its own energy.

Every atom has one or more electrons surrounded its nucleus. The electron emits light after changing from a high energy state o to a lower energy state which is known as transition. The wavelength of this light is unique to each element because each atom of a particular element has a different transition energy. And since we humans perceive different wavelengths as different colors, all the colors are related to the electron structure of the atoms.

Each parent, including the male parent, contributes approximately 50% of their genetic material to their offspring. This is exemplified during the formation of sex chromosomes in a child, as well as through Mendelian genetic crosses where the distribution of alleles illustrates the probable genotypes of offspring.

In the context of classic Mendelian genetics, when considering the genetic material each parent contributes to their offspring, the male parent contributes approximately 50% of the genetic material to each of the offspring. This is because, during sexual reproduction, a male contributes one set of chromosomes through his sperm, while the female contributes the other set through her egg, each constituting half of the child's genetic makeup.

For example, if we consider the sex of a baby, a mother can only pass on an X chromosome while the father can pass on either an X or a Y chromosome. This determines the child's sex. In genetic crosses such as those studied by Mendel, the probabilities of offspring genotypes can be predicted using Punnett squares. In a cross of two heterozygous parents (Aa x Aa), for instance, there is a 25% chance of offspring being AA, 50% chance being Aa (as Aa and aA are the same genotype), and 25% chance being aa. These reflect the probabilistic distribution of inheriting each allele from the parents.

Bird chicks opening their mouths when the mother bird returns to the nest is an example of innate behavior called gaping, which helps them receive food and increases their chances of survival.

The baby chicks' response of opening their mouths when the mother bird returns to the nest is an example of an innate behavior called gaping. Gaping is a reflex behavior in bird chicks, where they instinctively open their mouths wide to signal hunger and elicit a feeding response from the mother bird. This behavior helps ensure that the chicks receive food and increases their chances of survival.

In birds like the herring gulls and graylag geese, these behaviors are instinctual responses that have evolved to enhance fitness, by making sure the offspring receive enough food and care. Similarly, human newborns display reflex behaviors like the sucking reflex and grasp reflex that are vital for their survival.

Just like bird chicks, human babies exhibit these innate behaviors without having to learn them, which ensure they feed and stay close to their caregivers for protection and survival.

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During the process of polymerization, monomers combine by sharing electrons. This process forms a polymer, which is made of repeating subunits. The resulting material is used in a variety of ways.

Answer:

genetic recombination

Explanation:

As a result of genetic recombination, the species integrity—an essential structure responsible for the preservation and improvement of ecological stability of animals in developing lineages—is continuously homogenized within the species.

Genetic recombination is the splitting and reassembling of chromosomes or chromosome fragments to rearrange DNA sequences.

It also discusses how these rearrangements affect the offspring who inherit novel allele combinations because they have recombinant chromosomes.

Crossover can occasionally result in the production of novel chimeric alleles and causes kids to have gene combinations that are distinct from those of their parents.

Therefore, genetic recombination favor species survival in changing environmental conditions.

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The old DSM-IV diagnoses of Autistic Disorder, Asperger's Disorder, Childhood Disintegrative Disorder, and Pervasive Developmental Disorder Not Otherwise Specified (PDD-NOS) have been replaced by the new DSM-5 diagnostic of Autism Spectrum Disorder (ASD).

The most severe of the four diagnoses, autism disorder was defined by the DSM-IV as having confined and repetitive behaviours as well as major deficits in communication, social interaction, and behaviour. The diagnostic of ASD in the new DSM-5 is far more inclusive than the Autistic Disorder diagnosis was.

It is a spectrum condition that affects people with a variety of symptom severity levels, ranging from slightly to seriously impacted. ASD is defined by the DSM-5 criteria as having limitations in social interaction, social communication, and limited and repetitive behaviours.

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The human body uses fats, primarily in the form of triglycerides, to produce energy through β-oxidation. Fats also play key roles in creating cell membranes and storing fat-soluble vitamins. However, excessive fat storage can lead to adverse health issues.

In the human body, fats, also referred to as lipids, are crucial for various functions, including the production of energy. The body converts fats, primarily in the form of triglycerides, to energy through a process known as β-oxidation. Triglycerides are composed of three fatty acids attached to a glycerol molecule. When there is an excess of glucose, it gets converted to pyruvate during glycolysis, which is then used to synthesize fatty acids, subsequently stored in adipose cells.

Fats are also important for the construction of cell membranes, providing insulation for the body, and acting as a storage medium for fat-soluble vitamins like A, D, E, and K. It should be noted that while fats provide a high caloric value, with approximately 9 calories per gram, compared to carbohydrates and proteins which provide about 4 calories per gram, excessive storage of fat in the body can lead to negative health effects such as weight gain and increased strain on the heart, muscles, and joints.

Answer: Meiosis 1.

Explanation:

Answer:

New treatments during pregnancy could prevent harm to the developing child.

Explanation:

The Rh factor is inherited, meaning it is passed from parent to child through genes. The fetus can inherit the Rh factor from the father or the mother. Most people are Rh positive, meaning they have inherited the Rh factor from either their mother or father. If a fetus does not inherit the Rh factor from either the mother or father, then he or she is Rh negative. When a woman is Rh negative and her fetus is Rh positive, it is called Rh incompatibility.

When the blood of an Rh-positive fetus gets into the bloodstream of an Rh-negative woman, her body will recognize that the Rh-positive blood is not hers. Her body will try to destroy it by making anti-Rh antibodies. These antibodies can cross the placenta and attack the fetus’s blood cells. This can lead to serious health problems, even death, for a fetus or a newborn.

Thus the discovery helped society understand this.