The immediate energy source that drives ATP synthesis by ATP synthase during oxidative phosphorylation is the
a. oxidation of glucose and other organic compounds.
b. flow of electrons down the electron transport chain.
c. H+ concentration gradient across the membrane holding ATP synthase.
d. transfer of phosphate to ADP.

Answer:

Some bacteria are used as indicators because if they are present in the product, we can say that it is a product with the presence of pathogens that will cause diseases. Some of them are: total coliforms, fecal coliforms and enterococci.

To be a good indicator they must have a correlation with the pathogens and be more abundant than them. Its presence in a food indicates the possible presence  simultaneous pathogen microorganisms. For example, E. coli has been used as  Index of possible presence of pathogens of enteric origin in water and food

Answer:

B

Explanation:

Organic chemistry is defined as the study of carbon compounds.

Organic compounds were first thought to be compounds that could only be produced by living organisms. This theory was disproved when scientists synthetically made urea from ammonia in a lab.

Organic compounds are now known as compounds where carbon atoms are covalently bonded to other elements. This could be hydrogen or oxygen (in the case of lipids or carbohydrates) or nitrogen (in the case of amino acids).

Organic chemistry is the study of carbon compounds, including both naturally and synthetically produced ones, and not limited only to hydrocarbons.

Organic chemistry is most accurately defined as b. the study of carbon compounds. This branch of chemistry deals with the structures, properties, compositions, reactions, and preparation of compounds that contain carbon atoms. It's important to note that these compounds may not necessarily be produced only by living cells (which eliminates option a) and can be either natural or synthetic, ruling out option c. Furthermore, while organic chemistry does study hydrocarbons (compounds composed solely of carbon and hydrogen atoms), this makes up only a fraction of the compounds analyzed, so option d is too restrictive.

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Answer:

Chromosomes are a microscopic thread-like structure, and it is the part of a cell that carries hereditary information in the form of genes.

Homologous chromosomes the relationship between two chromosome, consists of the same gene sequence, each derived from one parent. They consist of alleles of the same type of genes in the same loci. Homologous chromosomes pair up during the process of meiosis 1. The part of the Homologous chromosomes can be exchanged during the process of recombination. Examples of these are 22 autosomal chromosomes in humans.

Non-homologous chromosomes do not belong to the same pair, they consist of alleles of different types. Non-homologous chromosomes do not pair up during the process of meiosis 1. The part of the Non-homologous chromosomes can be exchanged during the process of translocation. Examples are X and Y chromosomes.  

Answer:

Chemical Weathering is a type of weathering where rock is dissolved by an acid

Explanation:

The weathering of rocks by chemicals is called chemical weathering . Rainwater is naturally slightly acidic because carbon dioxide from the air dissolves in it. Minerals in rocks may react with the rainwater, causing the rock to be weathered. Some types of rock are easily weathered by chemicals.

Answer:

Chemical Weathering  is a type of weathering where rock is dissolved by an acid

Explanation:

Weathering are of two types- Mechanical and Chemical Weathering. In chemical weathering, the molecular structure of different rocks and soils change through chemical reactions.

For example, in carbonation the carbon dioxide of air and often soil mixes with water. This combination forms a acid named carbonic acid that dissolves rock. It especially dissolves the limestone rock. Through the dissolving of limestone huge caves are formed.

Answer:

The correct answer is option d, that is, endocytosis.

Explanation:

A procedure in which a component gains entry within the cell without getting passed through the cell membrane is termed as endocytosis. In this process, the cell captivates the substances from the external of the cell by engulfing and combining them with its plasma membrane.  

The process is further differentiated into three distinct kinds. These are phagocytosis, pinocytosis, and receptor-mediated endocytosis.  

Answer:

a.gastrulation is the correct answer.

Explanation:

The characteristics unique to animals is gastrulation

Gastrulation is a stage early in the embryonic growth in most of the animals, through which simple layered blastula is rearranged into a multi-layered structure called gastrula.

gastrulation results in the formation of three germ layers

The embryonic tissue layers are developed and arranged in their proper places during the gastrulation process.

Among the options, gastrulation is the characteristic unique to animals. Other traits like sexual reproduction, multicellularity, and flagellated sperm are also found in non-animal species, while gastrulation is a distinct phase in embryonic development of animals.

The characteristics unique to animals are not as straightforward as they may seem. Among the options, the characteristic unique to animals is gastrulation.

Sexual reproduction, multicellularity, and flagellated sperm are not unique to animals as there are non-animal species which also possess these traits. For instance, multicellularity is common in plants and fungi, sexual reproduction occurs in certain fungi and plants as well, and flagellated sperm is found in certain kinds of algae.

Gastrulation, on the other hand, is a phase early in the embryonic development of most animals, during which the single-layered blastula is reorganized into a multilayered structure known as the gastrula. This process, unique to animals, gives rise to what will become the organism's internal body cavities and the arrangement of tissues and organs.

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1. D

2. D

hope this helps

Answer:

It is well known that in biological compounds, such as proteins; a small change on its structure modifies its function to send a different signal or even to not have a function at all.

Talking about cohesin, this protein has been implicated in the development of certain types of tumors, because it takes a fundamental role in the cellular division and the 3D structure of the genome. Cohesin SA1, for example, maintains differentiated the TADs and it is essential for the organization of the topological domains of the genome, while the Cohesin SA2 is much more versatile and can regulate the expression of the genes within TADs, it is also capable to bond to some transcription factors creating local loops.

Some mutations on this protein can also be involved in the origin of rare diseases.

Answer: There are two pumping systems because the right side receives blood from the body and pumps it to the lungs, and the left side receives blood from the lungs and pumps it through the body. Thereby there are two pumping systems.

Explanation:

The heart is an organ that pumps blood throughout the body through the circulatory system. Its function is to supply oxygen and nutrients to the tissues and remove carbon dioxide and waste products.

The heart is divided into two separate pumps. The right side of the heart receives oxygen-poor blood from the veins and pumps it to the lungs, Over there, the blood picks up oxygen and gets rid of carbon dioxide, wich is a waste product. On the other hand, the left side receives oxygen-rich blood from the lungs and pumps it throughout the body. This blood enters the top chamber of the right heart, called the right atrium.

So, the right side of the heart receives blood from the body and pumps it to the lungs. The left side of the heart does the opposite. Thereby there are two pumping systems.

Answer:

The correct answer is option d.

Explanation:

Chemical cycling illustrates the systems of concurrent circulation of elements between other states, compounds, and substances, and then return to their original state, which takes place in space, and on many objects in space comprising the Earth.  

Chemical cycling of the nutrients (inorganic) is needed to maintain the conservation of nutrients on Earth. The chemical cycling of nutrients in a natural system requires a pool for the elements, the activities done by human beings, the biotic community and its food chains, and an exchange pool from which producers extract their nutrients. All the mentioned factors are associated with affecting a chemical cycling in exception to the input of geothermal energy.  

Answer: a. oxygen

Basically what (/the) ETC and oxidative phosphorylation is, is the products of the Krebs cycle being oxidized and oxygen receiving electrons. And when the phosphorylation part of oxidative phosphorylation occurs is when ADP gains its third phosphate group becoming ATP.

Forgive me for this poor response I was trying to be quick and it resulted in this vague and disorganized mess. To properly explain the ETC and oxidative phosphorylation it would be best to start from the beginning and explain all the stages of Aerobic respiration. Then it would be easier to Segway in to this final stage which would definitely take 2-3 descriptive paragraphs to cover.

The final electron acceptor in the electron transport chain during aerobic oxidative phosphorylation is oxygen. This is because oxygen combines with hydrogen ions and electrons to form water at the end of this process.

The final electron acceptor in the electron transport chain during aerobic oxidative phosphorylation is oxygen (option a.)

Here's why it's oxygen: Aerobic oxidative phosphorylation is the process during which ATP (the main energy source for most cellular functions) is produced. This process happens in the mitochondria of our cells, and it's a part of cellular respiration.

In this process, the electron transport chain plays a vital role. Electrons travel down the chain, moving from one protein complex to the next. These electrons ultimately combine with hydrogen ions and oxygen to form water. Thus, oxygen acts as the final electron acceptor in the chain.

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Answer:

G=21 %

T= 29 %

A= 29 %

Explanation:

Since C only binds to G, you have the same amount of C and G, so G is 21 %.

100 % minus 42 % ( 21 % C plus 21 % G=) equals 58 %.

So the other 58 % is made of T and A. Since T only binds to A , the half of the extra 58 % is T and the other half is A. Therefore 29 % is T and 29 % is A

Answer:

A. The extension of Mendelian genetics comprises the codominance, incomplete dominance, polygenic inheritance, multiple alleles, lethal genes, sex lined genes, gene mapping, and others.  

B. The phenomenon of incomplete dominance takes place when of both the recessive and dominant forms, no one gets expressed in the F1 generation, however, an intermediate expression is witnessed. For example, crossing red flower with the white one generates pink flowers.  

On the other hand, in codominance, both the alleles get expressed, like in the blood group AB. The association of genes results in epistasis, it changes the normal dihybrid phenotypic ratio, that is, 9: 3: 3: 1 to 12: 3: 1. The genes, which suppress the others are called epistatic, while the ones, which get suppressed are known as hypostatic.  

Answer:

The correct answer will be option-B.

Explanation:

Sertoli cells are the large somatic cells present in the testis which helps in the formation of spermatozoa. The Sertoli cells create a suitable environment for the production and maturation of the sperms as they produce certain molecules which nourishes the sperms.

The Sertoli cells act as a barrier between the testis and blood and secrete enzymes like inhibin. They eliminate the apoptotic germ cells and also produce seminiferous fluid to nourish the sperm. They do not play any role in primary spermatocytes.

Thus, Option-B is the correct answer.

Answer:

A) Mycoplasma

Explanation:

This kind of bacteria does not have a cell wall.

This is why it's so difficult to kill them with antibiotics that block cell wall synthesis like penicillin. They do not respond to them.

Atypical pneumonia and some pelvic inflammations are caused by this kind of bacteria.

Answer:

Testcrosses clarify linkage because each phenotypic class of progeny corresponds to each gamete type produced by the dihybrid parent.

Explanation:

Answer: a. True

Explanation:

Reliability can be define as the consistency in the results or measure. A test is said to be reliable if the results obtained are repeated the same. For example,  if a test is designed to observe and measure the trait, then each time the test is administered to the subjects, the results obtain will be approximately the same.

Answer:

In humans, males sex determination is trigged by a Y linked gene (SYR) female sex determination occurs in XX embryos by default

Explanation:

The sex of the individual is defined through the interaction of genes that are situated in homologous pairs, that is, sex chromosomes (heterosomes or allosomes).

In humans, sex is determined by the XY system. The man has 44 autosomes + XY, being heterogametic: 22 A + 22 A + Y. And women have 44 autosomes + XX, being homogametic: 22 A + X.

Even though male chromosomes are different from female chromosomes, these sex chromosomes are homologous and are similar in meiosis, but there are no partial chromosomes in the male chromosome, so their pairing is partial. In homologous regions, there is pairing between the X and Y chromosomes, and in non-homologous regions, there is no pairing between the X and Y chromosomes.

Man produces two types of sperm, which are composed of equal amounts of X chromosome and Y chromosome, so it is called heterogametic. The woman is considered homogametic, because in the egg she produces there is only one X chromosome. If the egg is fertilized by a sperm that has X chromosome, consequently the zygote will have an X chromosome and a Y, that means the sex of the son will be male. Otherwise, if the egg is fertilized by an X sperm, the zygote will have two X chromosomes, and its sex will be female. This whole process of defining sex occurs in fertilization.

Answer:

Thanks to the fossil record, direct evidence of the evolution and change of species can be given over the years. The fossil record tells us the natural history of the species in the different geological ages and allows us to see the changes in the distributions of the species, extinction and diversification from comparison and measurement.

The correct options for the reactions that occur during the Calvin cycle are: B) Carbon fixation and C) RuBP regeneration.

The Calvin cycle in chloroplast stroma involves carbon fixation and RuBP regeneration. Carbon fixation involves adding [tex]CO_2[/tex] to ribulose bisphosphate (RuBP). The enzyme RuBisCO helps produce an unstable intermediate that soon converts into two molecules of 3-phosphoglycerate (3-PGA).

These molecules then generate glucose. RuBP renewal sustains the cycle after carbon fixation. RuBP is constantly available for carbon dioxide fixation. The Calvin cycle helps plants synthesise sugars and other vital biomolecules by converting ambient carbon dioxide into organic compounds. Therefore, he correct option are: : B) Carbon fixation and C) RuBP regeneration.

Learn more about Calvin cycle, here:

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Answer:

Forests.

Explanation:

They decrease the amount of Carbon dioxide & increase the amount of Oxygen.

Answer:

I think trees aka plants would be the answer

Answer:

C) Reduced population growth

Explanation:

Vaccination avoids that an infectious agent causes a disease in a person, so it stops the spread of these diseases. Also, antibiotics kill bacteria responsible for infections in an ill person, therefore, they also end the spread. Water purification eliminates pathogens from the water such as bacteria or fungus, so it helps to prevent infections in a population. Finally, reducing the growth of the population doesn't directly affect the spread of infectious diseases.

Answer:

50% green-seed individuals vs. 50% yellow-seed individuals.

Explanation:

Mendel is known as father of genetics. He explained the concept of dominance, the law of segregation and the law of independent assortment while working on pea plant.

Green seed color is recessive and yellow seed color is dominant. A pure green line seed plant (ss) is crossed with heterozygous plant (Ss). The cross is as follows:

Parents   ss (green seed)   ×     Ss (Yellow seed)

Gametes   s                                  S, s

progeny:  Ss, Ss, ss, ss.

Here, Ss is yellow seed and ss is green seed.

50% green-seed individuals vs. 50% yellow-seed individuals are formed after the cross.

Thus, the correct answer is option (a).

Answer:

Option (D)

Explanation:

Diversity in simple words means variations. By the given statement "life is diverse", it means that there are various types of life forms on earth. These variations occur in different places under different conditions. The factors that affect diversity are as follows-

(1) Biotic factors

(2) Abiotic factors

(3) Geographical factors

This diversity occurs in three forms and they are as follows-

(a) Ecological diversity

(b) Species diversity

(c) Genetic diversity

Hence, the correct answer is option (D).

Answer:

1. Bacteria where grow in a medium composed of heavy nitrogen. After several generations the bacteria DNA was composed of heavy nitrogen (heavy nitrogen is an isotope of nitrogen).  

2. After several generations had passed, the bacteria were transferred to a nitrogen light medium.

3. As soon as the bacteria were transferred the bacteria DNA was isolated after the first and second generation through centrifugation.

4. Results: after 2 generations half of the DNA was intermediate and half was light; there was not heavy-only DNA.  The conclusion was that the new DNA is formed by an "old" strand and a "new" strand producing an intermediate weight.

Answer:

Since the cells are being coinfected by 2 types of viruses, this can create heteroduplex areas. DNA repair systems normally correct the heteroduplex areas. In rare cases, the heteroduplex is not corrected and a chromosome containing the mismatch appears so a single bacteriophage particle can be generated. One DNA strand is c+, and the other strand is c. When such a bacteriophage infects a fresh bacterial host cell, some molecules are created by DNA replication.

Answer: B, Meiosis I

Explanation:

During meiosis I, genetic material halves, and you get 2 haploid cells (n) from a diploid cell (2n). Those divide again during meiosis II to form 4 different haploid cells.

DNA replicates during interphase and starting at meiosis I, 2n homolog chromosomes attach to form n tetrads. Those tetrads align in the cellular equator during metaphase I and then separate, moving to opposite poles during anaphase I. Each cell formed receives a copy of each chromosome and then divides in a process similar to mitosis during meiosis II.

Homologs of a pair move toward opposite poles of a dividing cell during meiosis I. This is different from mitosis, meiosis II, or fertilization, which involve different cellular processes.

The two homologs of a pair move toward opposite poles of a dividing cell during meiosis I. This event is known as anaphase I of meiosis I. In contrast, during mitosis and meiosis II, it is the sister chromatids, and not the homologs, that separate and move to the opposite poles. Fertilization, on the other hand, involves the fusion of two gametes (each from a different parent) and does not involve the separation of homologs.

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Answer:

Explanation:

The huntington disease is a disease that is caused by the dominent allele. It is the disease which causes damage to the brain cell. The mother and father can be carrier or affected by the disease. As in the condition if both parents exhibit a hetrozygous condition that is both have a dominent as well as as a recessive allele responsible for the disease. Then there is 75% chances of occurence of disease in the child. If both parents are homozygous that is both have dominent alleles then 100% chances of occurrence of the disease.

Answer:

The four components of blood are RBC, WBC, Platelets, and blood plasma.

Explanation:

The major 4 components of blood are RBC, WBC, platelets, and plasma. Plasma is the fluid part of the blood and the remaining 3 are the cellular part.  

Plasma is the yellow color liquid. In the plasma, all cellular components float. Plasma constitutes approximately 55% of the total volume of the blood.

The various functions of plasma are - It carries different nutrients from the alimentary canal to the liver and other parts of the body. Simultaneously it carries the CO2 from the different tissues and reaches them to lungs for expiration. It distributes the hormones and vitamins from endocrine glands to different target organs. Plasma also plays a role in the water balance in the body. It supplies water to tissues and receives excess water from them. Thus regulate the water balance in the body.

RBC is the enucleated cellular organelle of blood. The absence of nucleus enables it to carry more oxygen. It is red due to the presence of Hb and carries O2 and CO2 in the form of oxyhemoglobin and carbaminohemoglobin. It also helps in releasing energy through the metabolic process.

WBC is concerned with the immunity of the body. It acts as a defense mechanism of the body. The components of leukocytes such as granulocytes and agranulocytes are phagocytic. They engulf bacteria and viruses. Eosinophils fight against the allergic reaction in the body.

The blood platelets have blood clotting factors. There are 12 blood clotting factors which help in the clotting of blood.