According to the Focus on Neuroscience box on the adolescent brain, the amount of gray matter in the brain peaks at about age _____ for girls and age _____ for boys.

Answer: False

Explanation:

Airborne pathogenic infection usually spread when viruses, bacteria or any other pathogenic agent travel over the dust particles or respiratory droplets.

The pathogens can travel to a great distance in air being on the tiny nano particles of dust particles and respiratory droplets. The pathogens of cough or sneeze travel a long distance very quickly. These pathogens travel upwards at a speed of 320 km/h. In indoors the speed of airborne pathogens increases and their potential to cause infection also increases.

Answer:

False

Explanation:

Answer:

Gall bladder

Explanation:

Gall bladder lies on the right side of abdomen and just below the liver. This is a pear shaped organ and releases its stored product through the common bile duct.

Gall bladder removal surgery generally occurs in case of gall stone, and inflammation. Gall bladder mainly stores the bile juice produced from the liver and its removal will least affect the body.

Thus, the correct answer is option (c).

Answer:

Explanation:

Rectus femoris can be define as a bulk of muscle that is located in the anterior and superior compartment of the thigh. These muscles originates from the anterior illiac spine and from the parts of the alar illium that is superior to the acetabulum that is the part of the hip bone.

Answer: (c) seed type

Explanation:

An independent variable is the one which can be altered or manually manipulated in an experiment. The effect of such manipulation can be examined on the dependent variable of the experiment. The dependent variable cannot be manipulated in an experiment instead it is the outcome of the experiment.

The seed type is the correct answer because the seed type can vary and the effect of which can be examined on the seed germination process and rate of seed germination.

Jeremy's brain, affected by Parkinson's disease, is likely producing less dopamine than it needs, leading to motor symptoms, mood changes, and an increased need to smoke.

Jeremy's brain is probably producing less of a neurotransmitter called dopamine than it needs to. Parkinson's disease, a progressive neurodegenerative disease, primarily affects the motor skills due to degeneration of dopamine-producing cells in a region of the brain called the substantia nigra. Dopamine plays a key role in controlling movement, but also affects mood and addictive behaviors.

The shortage of dopamine may explain not only Jeremy's motor symptoms, but also his mood changes and increased need to smoke. Smoking is often used as a form of self-medication, as nicotine temporarily boosts dopamine levels, providing transient relief from symptoms.

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Answer:

Five basic element of reflex arc are receptor, sensory neuron, integration center, effector and motor neuron.

Explanation:

Reflex arc may be defined as the neural pathway of reflex action. Reflex may be defined as a response against a particular stimulus that returns the body to homeostasis.

Five basic elements of reflex arc are as follows:

Receptor: Receptor is present at the end of a sensory neuron and they respond against a stimuli.

Sensory neuron: The neuron carries nerve impulse from the receptor to the  brain or spinal cord.

Integration center: This center consists of more than one synapse in brain or spinal cord.

Motor neuron: This neuron conducts nerve impulse from the central nervous system to the effector organ.

Effector: Effector respond against a nerve impulse and may contract or secrete a product depending upon the effect.

Answer:

a.bone marrow and thymus

Final answer:

The primary lymphoid organs are the bone marrow and thymus, where lymphocytes mature and are selected. The secondary lymphoid organs, such as tonsils, spleen, and lymph nodes, store lymphocytes and filter lymph for pathogen encounters and immune responses.

Explanation:

The primary lymphoid organs are the bone marrow and thymus. B cells mature in the bone marrow, while T cells mature in the thymus. These organs are where lymphocytes go through maturation and selection processes to enable them to attack pathogens without harming the body's own cells.

The secondary lymphoid organs include the tonsils, spleen, and lymph nodes. Tonsils, spleen, and lymph nodes store lymphocytes and filter lymph, allowing for pathogen encounters and initiation of adaptive immune responses.

The correct option is a. bone marrow and thymus.

Answer:

While water soluble hormones can travel freely in the blood, lipid soluble hormones require a carrier protein because they are not soluble in the aqueous plasma

Explanation:

The water-soluble hormones such as insulin are dissolved in the blood and are carried along with the blood to their target cells.  

However, lipid-soluble hormones such as steroid hormones (cortisol) and thyroxine are hydrophobic in nature. These hormones are not dissolved in water-based blood plasma. So, these lipid-soluble hormones are carried through the carrier proteins.  

Peptide and amino acid-derived hormones can travel freely in blood due to their water solubility, whereas steroid and thyroid hormones require carrier proteins because they are lipid-derived and not water soluble. Steroid hormones utilize intracellular receptors, while the water-soluble hormones bind to cell surface receptors.

While peptide and amino acid-derived hormones can travel freely in the blood, steroid and thyroid hormones require a carrier protein because they are not soluble in the aqueous plasma. Peptide and amino acid-derived hormones are water soluble, which allows them to circulate in the blood without being bound to any carrier proteins. In contrast, lipid-derived hormones, specifically steroid hormones and thyroid hormones, are hydrophobic and insoluble in water, thus they need to be transported by plasma proteins to ensure that they remain soluble in the bloodstream. Lipid-derived hormones, such as steroid hormones and thyroid hormone, can permeate plasma membranes and utilize intracellular receptors, while peptide and amino acid-derived hormones, being lipid insoluble, require cell surface receptors to exert their effects.

Answer:

Just incase. they need to identify you acid can burn its a very dangerous solution to move state to state.It can kill you

Answer:  (1) The populations breed separately.

Explanation:

The genetic diversity can be define as the total number of different types of genes is present in a particular species. Genetic diversity makes the way suitable for the survival of the population of species in changing environment.  

According to the given situation, if the two population breed separately then then no new genes will be added to the gene pool of the species and hence, the genetic diversity will be lost.

Answer:

Option (e).

Explanation:

Genbank may be defined as a sequence database that can be used to identify the evolutionary relationship between an organisms. Genbank contains the nucleotide sequences and information for the translation of protein.

Original sequences can directly be submitted to the genbank. Genbank stores the large database that contains the genetic information of an organism.

Thus, the correct answer is option (e).

Answer:

a hormone from the pituitary gland, or part of the brain.

Explanation:

the pituitary gland in the brain and the thyroid gland contribute 2 growth between the age of 13-25...

Answer:

Bacteria: Both processes provide the Bacteria with new genes that might provide new ways of dealing with environmental changes

Explanation:

Transformation occurs when there are dead and live bacteria in a population. If the dead bacteria bear desirable traits, the DNA will be passed onto the live bacteria via transformation. The DNA in the dead bacteria pass through the membrane of the live bacteria and provide recombinant DNA.

Transduction occurs when bacteriophages (such as viruses) introduce foreign DNA into bacteria. The foreign DNA may have desirable traits to the bacteria that could help the bacteria population survive environmental changes such as antibiotics.

Answer:

Option B

Explanation:

Bacteria: Both processes provide the Bacteria with new genes that might provide new ways of dealing with environmental changes.

Explanation:

the entire population will go extinct

In evolutionary biology, the importance of genetic variation and natural selection in populations facing environmental changes is crucial for survival.

Natural selection is a process where organisms best adapted to their environment survive and reproduce, passing on advantageous traits. In a population lacking variation, if the environment changes negatively, the entire population may go extinct as they lack the genetic diversity to adapt. Genetic variation is crucial for species to survive changing environments through natural selection.

Explanation:

thats all that I could find I hope it helps a little bit :)

Answer:

Walking alone late one night, you are startled by a moving shadow that you glimpse out of the corner of your eye. The sympathetic division of the autonomic nervous system is activated. When you realize it is just the neighbor’s pet, the parasympathetic division lessens your physiological arousal.

The sympathetic division of the autonomic nervous system activates when you're startled, initiating the 'fight or flight' response. Once the danger has passed, the parasympathetic division lessens physiological arousal, returning the body to a restful state.

The autonomic nervous system (ANS) is a part of the peripheral nervous system that acts primarily unconsciously and regulates bodily functions. When you were startled by a moving shadow, the sympathetic division of the ANS was activated, stimulating your 'fight or flight' response and increasing your heart rate, dilating the pupils, and halting digestion. Then, after realizing it was just the neighbor's pet, the parasympathetic division stepped in, reducing your physiological arousal by slowing your heart rate, constricting your pupils, and resuming digestion, thus restabalizing your body conditions.

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Answer:

½½

Explanation:

the ratio is gonna be like this ½½

because we have 2 trait control by genes in separate chromosomes

In sexual reproduction between two heterozygous parents, each can produce four types of gametes for the two traits, which could lead to a 9:3:3:1 phenotypic ratio among the offspring when considering a Punnett Square for visualization.

When two heterozygous parents engage in sexual reproduction, each parent is capable of producing four different types of gametes for two traits located on separate chromosomes. If we consider parents with genotypes AaBb, then the gametes produced could be AB, Ab, aB, or ab. Using Punnett Square, we can visualize this. Each combination leads to a different genotype in the offspring. However, as the question asks about gametes specifically, there aren't different 'combinations' in gametes since they're haploid, so the question might be asking for the offspring produced—which would lead to a 9:3:3:1 phenotypic ratio in the offspring due to the independent assortment of alleles. This happens because alleles segregate during the production of gametes, ensuring that each gamete carries only one allele for each gene.

Answer:

1. Many vertebrates have teeth, and chewing (mastication) breaks up food into small particles, expanding its surface and mixes it with fluid secretions, which makes it possible to digest. Teeth are located in the mouth of animals, where the digestive process initiates.

2. The stomach, which resembles a bag-like shape, can either fold up when empty and expand like a balloon when it fills up with food. By doing this, the area of activity of the gastric juice is expanded, increasing the efficiency of the digestion. Food enters the stomach from the esophagus.

3. The villi and microvilli present in the epithelial wall of the small intestine, are fingerlike projections that greatly enhance the surface area of the small intestine. In humans, this surface area is 300 square meters and it is over this large surface that the products of digestion are absorbed.

Answer:

Competitive exclusion

Explanation:

According to competitive exclusion principle two species cannot exist together if these species share the same habitat and resources. This principle was given by the scientist Georgy Gause.

Some plants that are growing in an area are crowded by other plants over time. The new plants use water, nutrients and the first plants are disappeared because both plant species share same resources and habitat. These two species cannot co exist and the second plant causes the disappearance of plant because of competitive exclusion.

Answer:

A

Explanation:

I think it is A because of there being cell walls

Answer:

The battle against sexually transmitted illnesses, except for the relatively recent HIV/AIDS, has been one that has been present in humanity almost from its beginning. Infections caused by syphilis, ghonorrea, clamydia, among others, have been a part of humans since sexual activity has been around us. However, since the appearance of antibiotics, and other chemical agents to combat them, the scenario changes for mankind, as now, a diagnosis of such diseases was not basically a death sentence, or, a reason to be socially isolated. Another thing that changed, was the pattern and incidence of transmission, as now, with treatment, the pathogens could be stopped.

However, during the 19th century, with the appearance of medically more advanced technologies, better antibiotic treatments, and other public health measures, many of these STI´s, especially those that were most frequent, like syphilis, were no longer taken as certain death. However, it also became a reason for people to act more rashly and not think about transmission.

But in the 20th century, and especially since the appearance of the most deadly HIV virus, particularly in homosexual populations, things began to look bad for humans again. People died, and the only measure that could be taken as science learned about the pathogen, was isolation of those infected. Just as in the middle ages those infected with plague, were left aside, HIV-infected people became isolated. But during the 20th century, virology, the science that studies viruses and the possible treatments to it, and the adventure of DNA discoveries, led to a huge change. It was seen that there were a series of chemical components, that were able to completely detain, and in some cases eliminate, those viruses and bacteria that caused deadly STIs. But probably one of the biggest advances in the 20th century was the realization of the importance of education of people, campaigns to educate the people about contagion, ways of prevention and possible treatments.

In this question let's compare and contrast 19th century treatment for those living with an STD and 20th/21st century treatment for those living with HIV/AIDS.

Syphilis came and stayed, spreading, especially in times of war. With modern medicine, the bacterium that causes the disease was identified in 1905. And five years later, the first effective treatment was discovered. But it was only in 1943, with the discovery of penicillin, that a cure for the disease was found.

Treatment for HIV infection is done through antiretroviral drugs that prevent the virus from multiplying in the body, helping to fight the disease and strengthen the immune system, despite not being able to eliminate the virus from the body.

With this information, we can conclude that we are able to interrupt this pattern in the USA, with the increase in specificity in the treatment for these diseases and information, more and more these diseases ended up.

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Answer:

D

Explanation:

Homozygous mean a pair of alleles that are the same. Hence the root word homo- which means same. If the alleles were different, we would call this pairing a heterozygous pair, with the root word hetero- meaning different. An example of a homozygous pair would be AA, two dominant allele, or aa, two recessive alleles, while a heterozygous pair would be Aa, one dominant and one recessive allele.

Answer:

An organism with two different alleles for a single trait is said to be hom-ozygous for that trait. This is the correct answer.

Hetero means having two or more properties while hom-o means having one property.

An organism with two different alleles for a single trait is said to be heterozygous for that trait while an organism  with only one type of allele is referred to as being homzygous.

Alleles are  referred to as alternate forms of a gene. Phenotype can be defined as the expressed physical traits of an organism while Genotype is the genetic makeup of an organism which makes these options True

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Answer:

Do you have any more information other than the photo? Such as notes?

Answer:

Option (A).

Explanation:

Neuromuscular junction is formed by the connection between a muscle fiber and motor neuron. This is the site at which motor neuron transmit signal to the muscle fiber and causes muscle contraction.

Neuromuscular junction involves various critical events. The most important process that occur during muscular junction is the release of acetylcholine by the axon terminals of the motor neuron. Acetylcholine is a neurotransmitter and causes the stimulation of muscle tissue.

Thus, the correct answer is option (A).

The vital event at the neuromuscular junction involves acetylcholine being released by the motor neuron's axon terminals, diffusing across the synaptic cleft, and binding to receptors on the muscle fiber, triggering muscle contraction. Hence, the correct option is A.

The critical event that occurs at the neuromuscular junction is described by option a) Acetylcholine is released by axon terminals of the motor neuron. When the action potential reaches the axon terminal of a motor neuron, it triggers the release of acetylcholine into the synaptic cleft. This neurotransmitter then diffuses across the synaptic cleft and binds to nicotinic acetylcholine receptors (nAChRs) on the sarcolemma of the muscle fiber. The binding of acetylcholine to the receptors causes the ion channels to open, allowing Na+ ions to flow into the muscle cell, leading to depolarization. This depolarization, known as the end-plate potential, initiates an action potential in the muscle fiber which eventually results in muscle contraction.

Answer:

The insular cortex can be found near the centre of the brain within the lateral sulcus, as it is part of the cerebral cortex. It falls into both hemispheres (left and right halves) of the brain.

Explanation:

I have referred to "insula" as the insular cortex, since this question has been posted in biology and that was the only similar term I could think about.

Hope it helped,

BiologiaMagister

Answer:

Graves´ disease is an autoinmmune disease that is caused when the immune system attacks the cells of the thyroid gland, which leads to an overproduction of the hormones secreted by the thyroid gland. This constant attack and destruction on the part of the immune cells causes the thyroid to increase in size, a condition that is commonly known as hyperthyroidism.

Hyperthyroidism can become a really serious issue because the excessive production of the hormones of the thyroid gland will increase the metabolic activity of all parts of the body and can, if left untreated, cause such serious conditions as blood clotting problems, type 1 diabetes, among others.

Answer:

All these choices are correct

Explanation:

YACs stands for Yeast artificial chromosomes. These chromosomes are derived from a fungus species Saccharomyces cerevisiae. YACs are genetically modified and a 100—1000 kb fragments of DNA are inserted into a bacterial plasmid. The inserted DNA fragment can be cloned and physically mapped. In the presence of this fragment, the chromosome will be stable during extracellular replication and easily can be differentiated from colonies without the vector.

Answer:

The correct answer is they show weak positive gram staining reaction.

Explanation:

Mycobacterium phlei is a rod-shaped species of the genus Mycobacterium. They are acid-fast bacteria with mycolic acids rich cell wall due to which gram stain cannot penetrate easily and show light purple color while staining.

When gram staining is performed on the M.phlei , they take light purple color which indicates that it is a gram-positive bacteria and is related to Actinobacteria phylum of the gram-positive bacteria.

Thus, M. phlei is a gram-positive bacteria.

Mycobacterium plei cannot be accurately classified as Gram-positive or Gram-negative due to its unique cell wall composition; instead, it is categorized as acid-fast. This differentiation is important for understanding the bacterium's structural and resistance properties. The acid-fast characteristic suggests a lipid-rich cell wall, distinct from typical Gram-positive or Gram-negative bacteria.

The question about whether Mycobacterium plei is Gram-positive, Gram-negative, or neither is rooted in the practice of Gram staining, which is a vital technique used in microbiology to classify bacteria. Mycobacterium spp., pertaining to the question, are better classified as acid-fast rather than strictly Gram-positive or Gram-negative due to their unique cell wall composition. This classification reveals that their cell walls contain mycolic acids and are thicker than typical Gram-positive bacteria, which contributes to their resistance to the Gram stain procedure and necessitates a different staining method, known as the acid-fast stain, for proper visualization.

Understanding the distinction between Gram-positive and Gram-negative bacteria is crucial because it involves the bacteria's cell wall structure.  Gram-positive bacteria have a thick peptidoglycan layer, which retains the crystal violet dye used in the Gram stain, turning them purple. Gram-negative bacteria, on the other hand, have a thin peptidoglycan layer and an outer membrane that does not retain the crystal violet dye but takes up the safranin counterstain, appearing pink. The unique lipid-rich cell wall of Mycobacterium spp. prevents both the uptake and the retention of these dyes, making the acid-fast staining necessary.

In summary, recognizing the staining characteristics of bacteria, such as Mycobacterium plei, aids in their identification and provides insight into their structure and potential resistance mechanisms. The acid-fast quality of Mycobacterium indicates a cell wall composition distinct from the general categories of Gram-positive or Gram-negative, demonstrating the diversity and complexity of bacterial cell wall structures.

Answer: They filter lymph.

Explanation: Lymph nodes filter lymph, a fluid that comes from the blood plasma and passes through the lymph nodes; small structures that consist of immune cells. Their function is to engulf foreign parcticles. They prevent these foreign matters from circulating in the blood stream, playing a very important role in the immune system.

The role of lymph nodes is primarily to filter lymph, wherein harmful substances such as bacteria and waste products are removed. This helps in building and maintaining the body's immunity.

Among the given options, the most accurate role of lymph nodes is that they filter lymph. Lymph nodes are small, bean-shaped structures that produce and store cells that fight infection and disease. The lymphatic fluid, containing white blood cells, passes through the lymph nodes where harmful substances like bacteria and waste products are filtered out. This process is essential in building immunity in the body. They do not return lymph to circulation, or produce lymph or red blood cells. The function of producing red blood cells is primarily done by the bone marrow.

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To know what happens here, we need to see how alleles work.

You have three species: cremello, chestnut, and palomino all will be homozygotes with two alleles each.  

One of these will be recessive (aa), one will be dominant (AA), and one will be a mixture (Aa).

You know the offsprin, so Cremello and Chestnut are the recessive and dominant ones. If you draw the Punnett square, you'll find out all breeding are pure.

Now, if you draw de Palomino Punnett square having one recessive allele and one dominant allele from each paren, you'll found 1/4 cremello (aa), 1/4 chestnut (AA) and 1/2 palomino (Aa).

Final answer:

The coat-color patterns in horses are a result of multiple alleles. When two palomino horses are mated, they can produce offspring with any of the three coat-color patterns, including cremello, chestnut, and palomino.

Explanation:

The coat-color patterns in horses are a result of multiple alleles. In this case, there are three alleles for the coat-color gene: cremello, chestnut, and palomino. When two palomino horses are mated, they can produce offspring with any of the three coat-color patterns.

If two palomino horses are mated:

However, if cremello horses or chestnut horses are mated, they will only produce offspring with the same coat-color pattern as themselves. This pattern of inheritance is due to the different combinations of alleles that can be inherited from each parent.