The body's first line of defense from microbial infections is afforded by the _____ system.
a) nervous
b) immune
c) integumentary
d) skeletal

Answer: A food chain or food web provide information on the eating patterns of organisms, how energy is transfered from one organisms to another and the flow if energy in the ecosystem.

Explanation:

Food chain is the link of network that that starts from producer to the consumer and finally ends at the predator species and decomposer species in the ecosystem. It describe the feeding relationships among organisms.

Food web contains interconnection of several food chains in the ecosystem. It shows several feeding relationships in food chains .

Both food chain and food web provide information of how organisms are interconnected, their eating patterns, how energy is transferred from one organisms to another and flow of energy in the ecosystem.

Answer:

vitamin c hope this helped

Answer:

Circular and Radial muscles.

Explanation:

The pupilarry response is the variation of pupil's size due to a variety of causes (exposure to light, sexual stimulation, drugs) and it consists of two movements, constriction and dilation.

The constrict response occurs thanks to the circular muscle and the dilations is triggered by the radial muscle, both of them are smooth muscle.

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Answer: ADP is a necessary substrate for the reaction catalyzed by ATP synthase.

Explanation:

ATP- Adenosine Triphosphate

ADP- Adenosine Diphosphate

ATP is the most commonly used energy currency of cells in organisms. ATP synthase is an enzyme that creates ATP which stores energy. ADP/ATP carrier transports ADP into the mitochondria for oxidative phosphorylation to ATP, the ATP is then transported out of the mitochondria for use as a cellular fuel.

Atractyloside works by inhibiting the exchange of ATP from the mitochondria with adenosine diphosphate (ADP) in the cytosol, thereby also inhibiting oxidative phosphorylation.

Atractyloside binds to the ADP/ATP translocase, which is found on the inner mitochondrial membrane. As a result of this, the exchange of ADP and ATP is prevented and the cell die due to lack of energy.

Final answer:

Atractyloside inhibits ADP transport into the mitochondria, preventing ADP from being converted to ATP by ATP synthase, thus stopping ATP synthesis.

Explanation:

Atractyloside is a poison that inhibits the transport of ADP from the cytosol into the mitochondrial matrix by interfering with the adenine nucleotide transport protein of the mitochondrial membrane. This transport protein normally facilitates the exchange of ATP with ADP across the inner mitochondrial membrane. When ADP cannot enter the mitochondria, it cannot be converted back into ATP by the enzyme ATP synthase, which is powered by the proton gradient established by the electron transport chain. This inhibition ultimately results in the cessation of ATP synthesis, which is the direct effect of atractyloside poisoning. Inhibitors like oligomycin and atractyloside highlight the fragility and specificity of the oxidative phosphorylation process that is crucial for energy production in cells.

Answer:

The correct answer would be - point mutation.

Explanation:

Point mutation occurs when there is a change or alteration in one base pair in the DNA sequence is altered. In the given question there is only one base pair that is altered to Guanine from thymine.

It is a mutation that takes place due to mistakes or errors in the process of DNA replication. Other then the error in this condition can be induced by exposure to the radiation of X rays and UV rays.

Thus, the correct answer is - point mutation.

Final answer:

A substitution mutation is when one nucleotide base is replaced by another, and in this case, it is a point mutation or a single nucleotide polymorphism (SNP).

Explanation:

The type of mutation described, where one nucleotide is replaced by another nucleotide in the DNA sequence, is known as a substitution mutation. Specifically, due to the exchange of Guanine (G) to Thymine (T) at a particular position, this is termed a point mutation or single nucleotide polymorphism (SNP). These mutations can occur as errors during DNA replication or repair, and depending on their location and the resulting changes to the amino acid sequence, they can have a variety of impacts on gene function. For example, diseases like sickle cell anemia are a result of a single base substitution leading to a change in the protein's structure and function.

Answer: active transport

Explanation:

The active transport is the process of moving a substance across the cell membrane against its concentration gradient, requiring energy.

Active transport is a vital process that enables the movement of substances against their concentration gradients across the cell membrane.

This mechanism is essential for maintaining proper cellular functions, as it allows the cell to control the internal environment and regulate the concentrations of various ions and molecules.

In active transport, energy, typically in the form of adenosine triphosphate (ATP), is required to move substances from an area of lower concentration to an area of higher concentration.

This process involves specialized protein carriers or pumps embedded within the cell membrane.

These pumps can transport ions, such as sodium (Na+), potassium (K+), calcium (Ca2+), and hydrogen (H+), as well as other molecules, like amino acids and sugars.

One of the most well-known examples of active transport is the sodium-potassium pump (Na+/K+ pump), found in the plasma membrane of animal cells.

This pump actively moves three sodium ions out of the cell and two potassium ions into the cell, against their respective concentration gradients.

This action helps establish and maintain the resting membrane potential and is crucial for processes like nerve impulse transmission and muscle contractions.

Another example of active transport is the proton pump found in the lining of the stomach.

This pump is responsible for secreting hydrochloric acid (HCl) into the stomach's lumen, helping to digest food and destroy pathogens.

Active transport is a dynamic and energy-consuming process that plays a fundamental role in maintaining cellular homeostasis, as well as in various physiological functions and adaptations.

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Answer:

The correct answer is b) liver.

Explanation:

The liver develops many functions in the body. It's also the biggest solid organ in the body, meaning that it has a lot of irrigation. An injury in an organ that's so full of blood could cause severe hemorrhage.

Answer:

The correct answer will be option-A

Explanation:

Emotional memory refers to the memories of experiences which evokes or triggers the emotional reaction in higher organisms.

Emotional memory after evoking the emotional reactions remembers the past experiences based on which the person feels if the present event is pleasant or unpleasant.

The pounding of the heart is caused by the shock or the stress conditions observed with the fast beating of the heart. In the given question, When the heart pounds after seeing the rattlesnake will be considered response caused by the emotional memory as the rattlesnake is dangerous to humans based on the past experiences which evoke the emotional response.

Thus, option-A is the correct answer.

Emotional memory typically refers to the way emotionally significant events are processed and remembered, often involving a physiological response such as a pounding heart, and is heavily influenced by the amygdala.

Emotional memory involves complex processes primarily associated with the amygdala, which regulates emotions such as fear and aggression, and plays a key role in how memories are stored and consolidated. Strong emotional experiences trigger the release of neurotransmitters and hormones that enhance memory consolidation, enabling better recollection of events with emotional significance—referred to as the arousal theory. Notable examples of emotional memory include the physiological responses to fear, like a pumping heart when hearing a rattlesnake (as per the Cannon-Bard and James-Lange Theories of Emotion), which illustrate the link between physiological arousal and memory formation. The flashbulb memory phenomenon is a demonstration of the depth of emotional memories, where significant life events create vivid, enduring memories.

Answer:

(a) Gg × Gg; (b) genotypic = 1:2:1, phenotypic = 3:1

Explanation:

a) A cross between two gray seeded plants produces progeny with gray and white seeds in 3:1 ratio (302:98=3:1). This means that the parent plants are heterozygous and each has at least one recessive allele. If the allele "G" is responsible for gray seed and the allele "g" imparts white color to the seeds, the genotype of the heterozygous parents would be "Gg".  

b) A cross between two heterozygous gray seeded parents would produce progeny in following ratio:

Genotype ratio= 1 GG: 2 Gg: 1 gg

Phenotype ratio= 3 Gray: 1 white

The most probable genotype for parents producing both gray and white-colored seeds in a 3:1 phenotypic ratio is heterozygous (Gg . Gg), leading to a genotypic ratio of 1:2:1 and phenotypic ratio of 3:1 in their progeny.

The question involves the inheritance of seed color in pea plants, which pertains to the subject of Biology at the High School level. When gray seed color (dominant) in peas is crossed among themselves resulting in 302 gray seedlings and 98 white, the most probable genotype of each parent is (a) Gg . Gg; this means both parents were heterozygous for the gray seed color trait. Accordingly, (b) the genotypic ratio expected in these progeny is 1:2:1, and the phenotypic ratio is 3:1, favoring gray over white seed color.

Creosote bushes shrub are found throughout areas such as the Mojave Desert.

c. shrub

Explanation:

The Creosote bushes is an evergreen shrub. It is commonly grows at elevation under 5000 feet in lower Chihuahuan, Sonoran and Mojave deserts of North Mexico and United States. The bushes are named as Larrea Tridentate.

This shrub is act as roadrunners for nesting and place for desert tortoise. The structure of the shrub is coated with tiny pointed green leaves. These leaves are adopted to conserve water and survive high temperatures.

The creosote bush completes with other plants for water in the soil, and grows in desert condition. The tortoise present in the desert builds the subterranean burrows and spends 95% in the bushes. The bushes protect the tortoise from the intense heat in summer.

Answer:

Explanation:

These are the three reasons why the connective tissue wrappings of the skeletal muscle are important:

- Supporting and binding the muscle fibers.

- Providing strength to the muscle as a whole.

- Provide a route for the entry and exit of nerves and blood vessels that serve the muscle fibers.

Skeletal muscle has three different connective tissue layers: the whole muscle is enclosed by a dense connective tissue sheath called the epimysium, cells (fibers), like other body cells, are soft and fragile. The connective tissue covering furnish support and protection for the delicate cells and allow them to withstand the forces of contraction.

There are more indirect muscle attachments than direct—that is, tendinous-muscle attachments than direct muscle attachments because of their small size, more tendons can pass over a joint.

The connective tissue sheaths of skeletal muscle are important for protection, support and organization, and transmission of force.

The connective tissue sheaths of skeletal muscle are important for several reasons:

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Answer: An addition mutation results in an added base in the DNA sequence. 

Explanation:

The false statement about mutations is: Addition and deletion mutations disrupt the primary structure of proteins.

In reality, addition and deletion mutations can certainly disrupt the primary structure of proteins. These types of mutations can shift the reading frame of the DNA sequence, resulting in a change in the grouping of codons during translation.

This alteration can lead to a frameshift mutation, where the subsequent amino acids in the protein sequence are changed, often resulting in a nonfunctional or severely impaired protein. Thus, the statement that addition and deletion mutations do not disrupt the primary structure of proteins is incorrect.

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Answer:

Age 30

Explanation:

Answer:

This is an example of mutualistic relationship.

Explanation:

This type of relationship occurs when two living beings of different species decide to cooperate in order to obtain a benefit from each other.

This is an example of the joint evolution of both organisms, who adapted to each other's environment and obtained something productive from it.

There are cases in which without the help of another organism, a living being would simply die.

There are two types of mutual relationship: the obligate and the facultative.

In the case of the obligate mutualistic relationship, without the help of an organism, another organism would die. Therefore it necessarily depends on its cooperation to exist.

In the case of the facultative one, both living beings obtain mutual benefits but they can quietly live without each other.

Answer:

The correct answer is c. bowmans capsule

Explanation:

The bowman's capsule is a cup-shaped dilation which surrounds the glomerulus( tuft of capillaries). Bowman's capsule makes the first part of the nephron. Water and other solutes pass from the blood moving through the glomerulus into the Bowmans capsule due to glomerular blood pressure.

Then this filtrate passes through other part of nephron like PCT, Henle loop, DCT and collecting duct where secretion and absorption of substance and water takes place to make urine.  

So Bowman's capsule just collects filtrate from the glomerulus and passes it to PCT, therefore, such modification does not occur in Bowman's capsule.

Answer:

b. It is evolution above the species level.

Explanation:

Macroevolution is the evolution that generates new taxa, for examples two or more species from a common ancestor. Macroevolution is the product of microevolutionary processes, it is, of microevolution: the change in allele frequencies in a population over time.  Macroevolutive changes are commonly evident while not all microevlutive changes are not.

Answer:

increases genetic variation across gametes

occurs between homologous chromosomes

Explanation:

Crossing over is the exchange of chromosomal segments between homologous chromosomes during prophase I of meiosis. The process occur after the formation of bivalents/tetrads as a result of synapsed homologous chromosomes.

The exchange of chromosomal segments ensures that resulting meiotic gametes are genetically different from their parents, a phenomenon known as genetic variation.

Hence, the two statements out of the options that describe crossing over are:

Crossing over is an exchange of genetic material between non-sister chromatids of homologous chromosomes during prophase I of meiosis I, which enhances genetic variation in gametes.

Crossing Over in Meiosis

Crossing over is a process that occurs during prophase I of meiosis I, where there is an exchange of genetic material between non-sister chromatids of homologous chromosomes. This genetic recombination contributes to increased genetic variety in the resulting gametes. During this stage, homologous chromosomes align closely and form a structure known as a tetrad, consisting of four chromatids. The non-sister chromatids can then exchange segments of DNA, leading to new combinations of genes that enhance genetic variation across the resulting gametes.

It is essential to note that crossing over occurs specifically between homologous chromosomes, not between the identical duplicated sister chromatids. Also, crossing over is just one event that increases the genetic diversity; another critical mechanism is independent assortment, which randomly distributes different combinations of chromosomes to each gamete during meiosis.

Therefore, the statement that describes crossing over effectively is that it 'increases genetic variation across gametes' and 'occurs between homologous chromosomes.' However, it does not 'occur between duplicated sister chromatids' and it does not 'separate chromosome pairs into gametes' – that separation is the result of anaphase I and II of meiosis.

Answer:

c

Explanation:

The post bottleneck population exhibits less genetic variation than the pre bottleneck population.

Answer: Option A

Explanation:

To be precise the bottle neck population is a stage where a particular species undergo dramatic reduction in their population size. It may be due to natural or human activity. Whatever reason might be there are some species that fight to thrive to exist among all odds.  

Hence they undergo certain genetic variation to withstand the declining rate. Low genetic variation is only exhibited in this population so that they do not become a prey for the deleterious effect caused in the environmental changes.

Answer:

roan × roan

Explanation:

Answer:

The answer is letter C

Explanation:

Bordetella pertussis causes whooping cough by interfering with the activity of ciliated epithelial cells in the trachea.

Answer:

The correct option is d. In C3 plants the conservation of water promotes photorespiration.

Explanation:

Photorespiration is a metabolic pathway that leads to the loss of half the carbon fixed by photosynthesis, it occurs when the rubisco enzyme (which is responsible for carrying out the carbon fixation) of the Calvin cycle acts on oxygen instead of dioxide carbon. Photorespiration occurs in C3 plants, (considered C3, by the three carbon compound) when the CO2 concentration is reduced. The first step of the Calvin cycle is the fixation of carbon dioxide by rubisco, but at low concentrations of CO2, oxygen begins to be set in place. In conditions of moderate temperatures when C3 plants have enough water, the carbon dioxide supply is abundant and photorespiration is not a problem.  

The conservation of water in C3 plants promotes the c) opening of stomata.

In C3 plants, the conservation of water promotes the c) opening of stomata.

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Final answer:

The frequency of the cystic fibrosis recessive allele (A2) is 3%, and the dominant allele (A1) is 97% in the population according to the Hardy-Weinberg model.

Explanation:

Cystic fibrosis is a genetic disorder caused by recessive alleles (A2) and is inherited in an autosomal recessive pattern. According to the Hardy-Weinberg model, if 9 in 10,000 newborns have cystic fibrosis (A2A2), we can calculate the frequency of the recessive allele (A2) and the dominant allele (A1). The frequency of homozygous recessive individuals is q^2, thus q^2 = 9/10,000 = 0.0009. Taking the square root, q (the frequency of the recessive allele) is 0.03. The frequency of the dominant allele, p, can be calculated as 1 - q, which equals 1 - 0.03 = 0.97. Therefore, the expected frequencies of the dominant allele (A1) and the recessive allele (A2) are 97% and 3%, respectively.

A plant developed a mineral deficiency after being treated with a fungicide.

The most probable cause of deficiency is that mineral receptor proteins in the plant membrane were not functioning.

Soil is a major source of nutrients needed by plants for growth. The three main nutrients are nitrogen (N), phosphorus (P) and potassium (K).

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The fungicide likely caused the mineral deficiency by damaging the helpful microbes in the soil that are integral for nutrient absorption by the plant's root system.

The most probable cause of the mineral deficiency in the plant after being treated with fungicide is the destruction of symbiotic microbiomes in the soil, specifically in the root system of the plant. These microbiomes often play critical roles in nutrient cycling and availability to plants, aiding in the absorption of essential minerals. The fungicide, while targeting harmful fungi, may have inadvertently damaged these beneficial microbiomes, disrupting the nutrient uptake of the plant and leading to a mineral deficiency.

For instance, this is seen in diseases like wheat take-all which is caused by a fungus that attacks plant roots and disrupts water and nutrient channels. The soil's microbiome plays a direct role in the plant's immunity to such diseases. If a fungicide disrupts this, it can lead to the plant lacking certain minerals as the absorption mechanisms are affected.

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Answer:

If a neurotransmitter attaches to a ligand-gated channel and creates a potential that causes the inside of the excitable cell membrane to become less negative, and this potential travels only a short distance before dying out, it is considered to be a Graded or local potential

Explanation:

Graded potentials, also known as local or generator, are generated by an excitatory neurotranmitter, usually a ligan gated channel, they occur at a localized place on the cell and their potentials are smaller (from 1-50mV) and its magnitude depends on the strength of the stimulus.

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Answer:

The correct answers are

Question a) "50%".

Question b) "66%".

Explanation:

Achondroplasia is caused by a dominant allele, which means that a person with a "A" allele will develop this condition. In this case, all the people with Achondroplasia are heterozygotes "Aa" because the dominant genotype "AA" causes prenatal death. If a person with achondroplasia "Aa" mates with a person of average height "aa", the expected percentage of children with average height will be 50%, since there are 50% of chances of having "aa" children and 50% chances of having "Aa" children. Also, If two persons with achondroplasia have children ("Aa" x "Aa") , the expected percentage of children with achondroplasia will be 66%. The probability of having children with the "Aa" genotype is 50%, however since the "AA" genotype causes prenatal death, this genotype is not considered in the percentage.

In mating scenarios involving individuals with achondroplasia, the expected percentage of average-height children varies. A pairing with an average-height individual could yield 50% average-height children, while a pairing between two achondroplasia-affected individuals could yield 25% average-height children (with another 25% unfortunately dying in utero due to homozygous dominance).

Achondroplasia is indeed a form of dwarfism caused by a dominant allele. As you mentioned, a homozygous dominant genotype can lead to prenatal death. Those with this condition are hence heterozygous (Dd), where 'D' represents the dominant allele for achondroplasia and 'd' the recessive allele for average height.

a) If a person with achondroplasia (Dd) mates with a person of average height (dd), the potential genotypes of their offspring would be Dd and dd. This means 50% of their children would be expected to exhibit achondroplasia, and 50% would be of average height.

b) If two persons with achondroplasia (Dd) have children, the potential offspring genotypes would be DD, Dd, and dd. As homozygous dominance (DD) results in prenatal death, and d represents the recessive allele for average height, we'd expect 25% of their children to die in utero (DD), 25% to be of average height (dd), and 50% to have achondroplasia (Dd).

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Answer:

The correct answer will be option-D

Explanation:

Gram staining is the technique developed by the Hans Christian Gram which helps differentiate the bacteria was developed in 1884.

The color of the gram stain is violet due to the presence of the crystal violet so the bacteria which will appear violet will be called gram-positive and the bacteria which will appear pinkish will be called gram-negative.

The difference in the color of the bacteria lies in the fact that the gram-positive bacteria possess peptidoglycan layers not covered with outer lipids whereas the gram-negative bacteria possess peptidoglycan layers covered with lipid layer.

The presence of many peptidoglycan layers in the gram-positive bacteria help retain the crystal violet stain and thus, option-D is the correct answer.

it is in the primary sequence. The amino acid arrangement can cause differences in the types of myosin formed

Explanation:

Answer: Transcription initiation

Explanation:

In genetics, a promoter is a region of DNA that leads to initiation of transcription of a particular gene. Promoters are located near the transcription start sites of genes, upstream on the DNA (towards the 5' region of the sense strand).

Depending on the location and the nature of the genetic defect, ( for example if the sequence TTGACA has been lost), a mutation in the promoter region of a gene may disrupt the normal processes of gene activation by disturbing the ordered recruitment of TRANSCRIPTION FACTORS (TFs) at the promoter.

RNA polymerase || is  just the main transcription enzyme.

Answer:

bound to oxyheamoglobin

Explanation:.

Oxyheamoglobin is formed from the reaction of oxygen with haemoglobin.it is the oxygen loaded form of haemoglobin for delivery of oxygen to needed remote areas of the body.

.Hb        +      4O2       ⇒    HbO8

haemoglobin  oxygen    oxyhaemoglobin

Haemoglobin is a protein molecule that binds with oxygen. It has high affinity for oxygen with its four haem groups. Each haem group has binding iron.(Fe). When it is binds  with oxygen it is bright red, and turns purple when it unloaded oxygen at target point.

It has no association with carbondioixde transports except oxygen transport .

Carbon dioxide, is transported as the  listed three options(b,c,d) in the questions. Therefore  bound to oxyheamoglobin is  wrong, and it is the correct answer

Final answer:

Option A, bound to oxyhemoglobin, is the incorrect method for carbon dioxide transport in the blood since oxyhemoglobin is related to oxygen transport, not carbon dioxide.

Explanation:

Among the options for how carbon dioxide is carried by the blood, the incorrect method is: A. bound to oxyhemoglobin. This is because oxyhemoglobin is a form of hemoglobin bound to oxygen, not carbon dioxide. The correct methods of carbon dioxide transport in the blood include:

B. as bicarbonate ion (HCO3-), which is the primary form that CO2 is transported in the blood,

C. dissolved in the plasma,

D. bound to an amino acid in hemoglobin, forming carbaminohemoglobin.

These methods enable carbon dioxide to be efficiently transported from the body tissues where it is produced as a waste product, to the lungs where it can be exhaled.

Answer:

No

Explanation:

Inselberg is a prominent part of the relief, normally seen in flat plains and not in mountainous regions. Inselbergs are generally remnants of areas that have resisted the processes of pediplanation and pedogenesis, thus forming a high part of the relief. It is characterized as a region rich in vegetation and biodiversity.