The fluid mosaic model suggests membrane as a continually shifting tapestry of different sorts of molecules like phospholipids, cholesterols, and proteins.
The model still provides the best explanation for the structure and operations of the plasma membrane as they are understood today, despite minor changes over time. The plasma membrane's composition, which includes phospholipids, cholesterol, proteins, and carbohydrates, is described by the fluid mosaic model as a mosaic of elements that give the membrane its fluidity. The thickness of plasma membranes varies from 5 to 10 nm. Lipids, phospholipids and cholesterol, proteins, and carbohydrates bound to some of the lipids and some of the proteins make up the majority of a plasma membrane.
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What is the difference between female pelvis and male pelvis?
The main difference between the female pelvis and the male pelvis is that the female pelvis is wider and shallower than the male pelvis. This is because the female pelvis is designed to accommodate childbirth, while the male pelvis is not.
There are several other differences between the female pelvis and the male pelvis, including:
1. The female pelvis has a wider and more circular pelvic inlet, while the male pelvis has a narrower and more heart-shaped pelvic inlet.
2. The female pelvis has a shorter and wider sacrum, while the male pelvis has a longer and narrower sacrum.
3. The female pelvis has a wider pubic arch, while the male pelvis has a narrower pubic arch.
4. The female pelvis has a shorter and wider pubic bone, while the male pelvis has a longer and narrower pubic bone.
In conclusion, the female pelvis and the male pelvis are different in terms of their shape, size, and structure. These differences are mainly due to the fact that the female pelvis is designed to accommodate childbirth, while the male pelvis is not.
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where does water reabsorption occur in the nephron
Water reabsorption occurs passively in the first segments of the nephron. The proximal convoluted tubule is the first part of the nephron responsible for water reabsorption.
What is nephron and its function?nephron, functional unit of the kidney, the structure that actually produces urine in the process of removing waste and excess substances from the blood. There are about 1,000,000 nephrons in each human kidney.
What is the first part of the nephron?The first part is called the proximal convoluted tubule (PCT), due to its proximity to the glomerulus. The second part is called the loop of Henle, or nephritic loop, because it forms a loop (with descending and ascending limbs) that goes through the renal medulla.
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what role does nondisjunction play in the formation of a fertile allopolyploid hybrid?
The creation of a fertile allopolyploid hybrid results in a hybrid with twice as many chromosomes.
Which of the 23 chromosomes is it?There are 46 pairs of chromosomes in each human cell, for a total of 23 pairs. Twenty-two of these pairs, which are referred to as autosomes, appear identical in males and females. Males and females have distinct sex chromosomes, the 23rd pair.
Can chromosomes exist without you?Yes, but typically there are health issues associated with it. The absence of an X or Y chromosome is the only circumstance in which a missing chromosome can be tolerated. About one in every 2,500 females suffer from this condition, which is also known as Turner syndrome or XO. One of the most prevalent abnormalities on the chromosome is XO.
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how to calculate mean arterial pressure
Mean arterial pressure (MAP) is a measure of the average pressure in the arteries during a cardiac cycle.
It is calculated by the following formula:
MAP = diastolic blood pressure + (systolic blood pressure - diastolic blood pressure) / 3
Here's a step-by-step guide to calculating mean arterial pressure:
1. Take systolic and diastolic blood pressure measurements. These readings can be obtained using a blood pressure cuff and a stethoscope or an electronic blood pressure monitor.
2. Add systolic and diastolic blood pressures.
3. Subtract, diastolic blood pressure from the total calculated in step 2.
4. Divide the result from step 3 by 3.
The result is the mean arterial pressure (MAP) measured in millimetres of mercury (mmHg).
You could also use the following formula:
MAP = cardiac output x total peripheral resistance
where cardiac output is the volume of blood pumped per minute by the heart and total peripheral resistance is the resistance to blood flow in the arteries. This method, however, requires more advanced measurements and calculations.
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11. Pilihan ganda30 detik1 ptQ. What cycle is MOST directly affected by the combustion of fossil fuels?Pilihan jawabancarbon cycleoxygen cyclewater cyclenitrogen cycle
The combustion of fossil fuels is known to have a significant impact on the global carbon cycle. Therefore, the correct answer to the multiple-choice question is A - carbon cycle.
The carbon cycle refers to the flow of carbon between different reservoirs on Earth, including the atmosphere, oceans, and land. It involves various processes such as photosynthesis, respiration, decomposition, and fossil fuel combustion.
When fossil fuels are burned, carbon stored in the form of hydrocarbons is released into the atmosphere as carbon dioxide. This extra carbon dioxide in the atmosphere contributes to the greenhouse effect and the resulting global warming and climate change.
While the other cycles listed - the oxygen cycle, water cycle, and nitrogen cycle - are also important for the Earth's ecosystem, they are not directly affected by the combustion of fossil fuels to the same extent as the carbon cycle.
Complete question:
Pilihan ganda30 detik1 ptQ. What cycle is MOST directly affected by the combustion of fossil fuels?
A - carbon cycle
B - oxygen cycle
C- water cycle
D - nitrogen cycle
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The dna triplets that code for amino acids are common to:________
The DNA triplets that code for amino acids are common to all living organisms.
The DNA triplets that code for amino acids are common to all living organisms because of the universality of the genetic code. The genetic code is essentially a set of rules that govern how DNA is translated into proteins, which are the building blocks of living organisms. These rules dictate that each codon, or three-nucleotide sequence, codes for a specific amino acid. This means that the same codons code for the same amino acids in all living things, from bacteria to plants to animals.
This universality of genetic code has significant implications for biology and has allowed for many breakthroughs in the field of biotechnology. For example, it is possible to engineer bacteria to produce human insulin by splicing the gene for human insulin into the bacterial DNA. Because the genetic code is universal, the bacterial cells will translate the human insulin gene into the correct amino acid sequence, producing functional human insulin that can be used to treat diabetes. This is just one example of the many ways in which our understanding of the universality of genetic code has enabled us to manipulate the biological world for our own purposes.
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What are the grades of muscle strength?
The grades of muscle strength are 0 - No contraction, 1 - Trace contraction, 2 - Poor contraction, 3 - Fair contraction, etc.
Muscle strength is often assessed by medical professionals using a grading system that assigns a score to a patient's ability to move a particular muscle or muscle group against resistance. There are several different grading systems, but one commonly used system is as follows:
0 - No contraction: The muscle cannot produce any movement or contraction.
1 - Trace contraction: The muscle can produce a small amount of movement or contraction, but it is not enough to move the joint.
2 - Poor contraction: The muscle can move the joint, but only with gravity eliminated.
3 - Fair contraction: The muscle can move the joint against gravity, but cannot overcome any resistance.
4 - Good contraction: The muscle can move the joint against some resistance, but not against maximal resistance.
5 - Normal contraction: The muscle can move the joint against maximal resistance.
This grading system is used to assess muscle strength in different parts of the body, including the arms, legs, and trunk. It is also used to track changes in muscle strength over time, as well as to monitor the progression of diseases that affect muscle function, such as muscular dystrophy or multiple sclerosis.
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Synthesis of a defective protein may result from analteration in(1) vacuole shape(2) the number of mitochondria(3) a base sequence code(4) cellular fat concentration
The synthesis of a defective protein is most likely to result from an alteration in the base sequence code of the DNA.
This is because the sequence of nucleotides in DNA determines the sequence of amino acids in a protein, and any changes in the DNA sequence can result in a different sequence of amino acids, potentially leading to a defective protein. Vacuole shape, the number of mitochondria, and cellular fat concentration are not directly related to the synthesis of proteins. Vacuoles are membrane-bound organelles that function in storage and waste management, while mitochondria are responsible for producing energy in the form of ATP, and cellular fat concentration refers to the amount of fat stored in a cell. While defective protein changes in these cellular components DNA can affect cellular processes and metabolism, they do not directly influence the process of protein synthesis.
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How does saturation of the fatty acid tails in the phospholipids affect the fluidity of the membrane?
Saturated fatty acids press in on one another when temperatures drop, creating a dense, rather hard membrane. Compressing unsaturated fatty acids results in
What is the straightforward meaning of membrane?
The light coating that forms the external border of a life form or of an interior cell compartment is known as a membrane in biology. The organelles are the spaces surrounded by internal membranes and have the plasma membrane as their external boundary.
What body part makes up the membrane?
Body membranes are incredibly thin tissue sheets that line body cavities, cover organs inside of hollow organs, and cover the body's surface. The epithelium and associated tissues membranes are the two basic types of bodily membranes. Mucous, serous vesicles, synovial mucins, and meninges are subcategories.
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the most obvious physical change in early childhood is growth in what?
Early childhood is a time of physical development, including improvements in balance, gross motor function, and fine motor coordination.It's crucial to have good fine motor coordination for activities like writing, sketching, and participating in sports.
What grows more quickly in the early years of life?A baby's mind develops more and faster between the ages of birth and five compared to any other point in life.And while genetics undoubtedly play a crucial part, scientific research has shown that a child's early experiences, whether positive or bad, impact how their brain develops.
How does a youngster react to change?Repeated transitions can be stressful because they put this feeling in jeopardy and undermine both children's and parents' sense in control over their life. As a result, parenting tends to deteriorate and children's academic progress and mental health suffer.
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how do the tree shrews in borneo help the potty plant to survive
The tree shrews in Borneo help the pitcher plant (Nepenthes spp.) to survive by serving as pollinators.
Tree shrews are attracted to the sweet nectar produced by the pitcher plant, and as they feed, they transfer pollen from one flower to another, promoting cross-pollination and genetic diversity within the species.
In addition to pollination, tree shrews also play a role in seed dispersal. When the shrews feed on the nectar, they consume some of the seeds, which are then deposited in their feces at various locations throughout the forest. This helps the pitcher plant to expand its range and colonize new areas.
The mutualistic relationship between the tree shrews and the pitcher plant is an example of a specialized adaptation, in which each species has evolved to meet the specific needs of the other. The tree shrews benefit by obtaining a reliable source of food, while the pitcher plant benefits by having its reproductive success increased through pollination and seed dispersal.
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Plants use the relative abundance of Pr/Pfr to help track the day length. Which of the following statements is correct?
A) High levels of Pfr trigger development of flower primordia in short day plants by promoting transcription of the gene CO.
B) High levels of Pr directly inhibit the transcription of gene CO in long day plants
C) High levels Pfr triggers development of flower primordia in long day plants by promoting transcription of the gene CO.
D) When Pr levels are high relative to Pfr levels, plants have been exposed to a long duration of daylight.
High Pfr levels induce the production of floral primordia throughout long day plants via promoting CO gene transcription.
Write about floral primordia.Floral primordia are the teeny, tiny blossoms that are seen at the extremities of branches and are the forerunners of flowers. Flowers' first wrinkles or indentations gradually turn into bulges. The cause of this bulge is slower growth, which is less horizontal plane interdependent or asymmetrical.
How does a primordium of flowers grow?A floral primordium is the development of small blossoms at the termination of stems from which the flower may arise. Primordium formation begins with a brief period of uneven growth in the distal meristem of the shoot. Primordium production begins quickly and with anisotropic proliferation near the shoot apical meristem's perimeter.
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What's different forms of genes are called
Different forms of genes can be called as alleles. Alleles are distinct variants of the same gene that control the same characteristic in an organism. Alleles are responsible for the diversity exhibited in many species.
An allele is a variant of the same gene with a different nucleotide sequence. Each allele codes for a distinct version of a gene or a different form of a gene product. For example, an eye colour gene may contain distinct alleles that result in blue, green, and brown eyes.
Alleles can be recessive, dominant, or codominant. Dominant alleles are more strongly expressed than recessive alleles, which means that the attribute associated with the dominant allele will be exhibited in the organism. Recessive alleles, on the other hand, will be expressed only if the dominant allele is absent. Both codominant alleles are expressed in the organism, resulting in a mixture of the two alleles.
Alleles might be homozygous or heterozygous as well. Homozygous alleles are identical alleles, whereas heterozygous alleles are distinct alleles.
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during respiration, does glucose become more oxidized or more reduced?
During breathing, does glucose experience more oxidative or more reduction? Glucose is oxidized to decrease other compounds. By doing this, redox energy is converted into a substance that can power the ETC.
Does respiration result in the reduction or oxidation of glucose?During photosynthesis, CO2 is transformed to glucose, and moisture is destroyed to produce oxygen. During cellular respiration, oxygen is reduced and glycogen is destroyed to yield CO2 and water.
glucose being oxidized during respiration?Glucose is a major breathing substrate and the molecule most frequently used in respiration. Following the oxidation of glucose, ATP molecules store the energy that was released. The complete respiration process, which entails a series of chemical processes, is summarized by this equation.
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which of these membranes is dry compared to the others?
a.cutaneous
b.synovial
c.serous
d.mucous
e.mesothelial
a.cutaneous of these membranes is dry compared to the others
The synovium is either wet or dry?These membranes are kept moist by body fluids. . They encircle the joint chamber and fill it with the synovial fluid they secrete. The ends of the bones may move freely because the synovial fluid lubricates them.
The fluid that fills the gaps between your joints is called synovial fluid, sometimes referred to as joint fluid. The fluid in your joints lowers friction by cushioning the ends of the bones when you move them. A set of examinations called synovial fluid analyses check for issues with the joints.
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What is the main difference between plasma and serum?
Answer:
brainliest pleaseeeeee!
Explanation:
PLASMA
A transparent, straw-coloured, liquid portion of the blood.It is composed of serum and clotting factor.It is acquired after centrifuging blood with the anticoagulant.Anticoagulant is required to obtain plasma from the blood sample.Consists of 55% of the total volume of blood.Comparatively easier and less time is required to separate the plasma from the blood sample.Contains fibrinogen.Consists of 92% water with proteins, salts, lipids, and glucose.Has 1.025 g/ml density.Has a long shelf life. It can be preserved up to ten years.Plasma is the main medium for excretory product transportation.Cells are freely suspended in plasma.SERUM
An undiluted fluid, the extracellular portion of blood.It is the part of the blood which lacks clotting factor.It is acquired after centrifuging of coagulated blood.Anticoagulant is not required to separate the serum from the blood sample.Less volume in comparison to plasma.Difficult to separate serum from the blood sample. It is a time-consuming process.Lacks fibrinogen.Consists of 90% water with dissolved hormones, proteins, minerals, and carbon dioxide.Has 1.024 g/ml density.Has a short shelf life. It can be preserved only for a few months.An important source of electrolytes.Cells are attached together by clot formation.scientists use which fact as evidence that mitochondria and chloroplasts have prokaryotic origins?
Scientists use several lines of evidence to support the hypothesis that mitochondria and chloroplasts have prokaryotic origins, but one of the key pieces of evidence is the possession of their own DNA and the ability to replicate independently of the host cell's nucleus.
Mitochondria and chloroplasts are organelles found in eukaryotic cells that are responsible for energy production and photosynthesis, respectively. They are surrounded by two membranes, and their inner membranes contain enzymes and transporters that are similar to those found in bacterial membranes.
DNA sequencing has revealed that the genomes of mitochondria and chloroplasts are similar in size, structure, and gene content to those of bacteria and that they contain many genes that are essential for their own replication and function.
In addition, electron microscopy and other techniques have shown that mitochondria and chloroplasts divide by a process that is similar to binary fission, which is the way bacteria reproduce.
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what are the success factors of insects that lead to the need for limited resources?
The success factors of insects that lead to the need for limited resources are their small size, strong reproductive rates, adaptability, efficient metabolism, and various feeding techniques.
Small size, high reproductive rates, the capacity to adapt to new habitats, efficient metabolic processes, and a diverse range of feeding techniques are some of the success elements that enable insects to thrive despite the limited resources available to them. They also have a sturdy exoskeleton, which serves as protection against potential threats from both the environment and potential predators.
In addition, many different kinds of insects have developed specialized structures and behaviours over the course of their evolution. These adaptations enable them to fill particular niches within their ecosystems, which further improves their capacity to live and reproduce despite having limited access to resources.
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Is a bruise formed by the collection of blood at the puncture site when some of the blood escapes the vein and enters the surrounding tissue.
When a vein wall is punctured during or after an IV treatment, blood can enter the skin and pool there, causing bruising. The discolouration is the result of the blood being held in place by the skin's outer layer after it has been absorbed.
After a nurse or doctor removes the catheter, there can be some minor bruising. Blood can occasionally leak from the IV site into the skin and cause bruising while the body struggles to clot the area.
Patients who required many attempts to put their IV or who encountered IV failure like an infiltration are more likely to acquire a bruise.
Bruising in and around the IV site is typical, despite the fact that the idea of an area that is black and purple around the IV site may be unsettling.
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Anglerfish have glowing body parts above their mouths. Other fish swim to the glowing part, and then the
anglerfish catch and eat them.
Where do anglerfish live?
O in the deepest waters of the ocean
O in shallow waters near the shore
O along the shores of the polar ocean
O near the surface in the middle of the ocean
The esca (the "lure"), a highly changeable structure at the end of the anglerfish's "fishing rod," is home to tiny glowing bacteria known as Photobacterium.
Where does the fisherman live and fish?Anglerfish are found in the ocean between 0 and 1000 metres deep, rarely going below the continental slope. Fish age and season have an impact on this vast range of depths (water temperatures and prey availability).
What does the bioluminescent component that hangs in front of the angler fish's face serve to do?A bag of bioluminescent bacteria at the end of the rod emits a brilliant glow at night. The anglerfish uses the light to draw prey to its waiting mouth, serving as its own personal delivery service for food.
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Answer: in the deepest waters of the ocean
did the test
the region of a bacterial cell that contains the genetic material is called the __________.A. NucleoidB. ribosomesC. Plasma MembraneD. Cilia
Answer:
Nucleoid
Explanation:
In bacterial cells, the genetic material is contained in the nucleoid. The other organelles have different purposes; ribosomes are involved in protein synthesis, plasma membranes regulate the passage of molecules through the cytoplasm, and cilia are involved in movement.
When was nova let's make a microbe posted?
On October 18, 2020, Nova Let's make a Microbe was released. Nova, a prominent scientific television show, uploaded the post on its YT account.
The video provided viewers with an inside glimpse into the creation of a bacterium, from conception to final form. The article used CGI to bring a bacterium to life and teach viewers the process of creating a microorganism. The post went over every stage of the process, from creating the genetic code to adding proteins and lipids.
The relevance of bacteria and their role in the ecosystem were also explored in the piece. Microbes, while too tiny to be seen with the human eye, are critical to the health of the earth, playing a key part in processes such as nitrogen fixation, carbon sequestration, and decomposition, according to Nova.
The piece was well-received, with over 600,000 views as of this writing. The article garnered several favourable comments applauding the show's efforts, with many viewers expressing a want to understand more about germs and how they function.
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The apical plasma membranes of simple squamous cells are often folded into microvilli, which increases their surface area for absorption.
Parts of DNA on various chromosomes are responsible for encoding ribosomal RNA. A area inside the nucleus called the nucleolus is heavily colored.
What is anatomy of such a nucleus ?Just the synthesis of RNA from chromosomal DNA takes place within the membrane-enclosed nucleus. A ribosome is just an intercellular structure consisting of both RNA and protein that serves as the cell's location for protein synthesis. synthesized
It is clearly colored and discernible under a microscope. It acts as the focal point for every activity within a cell.
How are chromosomes functional?In the nucleus, there are normally 23 pairs of chromosomes. The chromosome, which would be arranged into filament-like bundles, is housed in the nucleus of every cell.
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What two molecules make up the sides, or 'backbone,' of the DNA molecule?
Two strands that form DNA are twisted together to form a ladder-like structure. Alternating sugar and phosphate groups make up the backbone of each strand.
Why is DNA important?Deoxyribonucleic acid is a molecule that transports the genetic data required for an organism to develop and perform its functions. Two linked strands of DNA make up the double helix structure, which resembles a twisted ladder because of the way its spirals turn around one another.
What is DNA, and where is it located?The complex molecule deoxyribonucleic acid, also known as DNA, contains all the information necessary to build and maintain a creature. Each and every living thing has DNA in its cells. In reality, the cells of an organism with several cells contain practically all of the DNA required for that organism.
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oocytes complete meiosis ii before they are fertilized. True/False?
Yes, that's True. oocytes complete meiosis ii before they are fertilized.
Up to fertilisation, oocytes are retained in the ovary during metaphase II of the meiotic cycle. This block is released when progesterone activates c-Mos, which further phosphorylates maturation promotion factor (MPF).
encourages maturation is the One of the main protein kinases that activates and acts as the master regulator for the M-phase transition is Cdk1/cyclin B, also known as MPF or maturation promoting factor. It phosphorylates and activates other downstream protein kinases in addition to several structural proteins involved in cellular rearrangement.
By phosphorylating condensins, lamins, nuclear pore complexes, and inner nuclear membrane proteins, it also plays a significant part in the chromatin condensation process, the nuclear envelope disintegration process, the fragmentation of the Golgi apparatus, and the development of oocytes complete meiosis ii before they are fertilized.
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Determine the maximum number of water molecules that could theoretically form hydrogen bonds with an asparagine molecule at ph 7.
Asparagine is an amino acid that contains a polar side chain with an amide group (-CONH2) that can act as both a hydrogen bond donor and an acceptor.
The maximum number of water molecules that could form hydrogen bonds with an asparagine molecule can be determined by considering the number of potential hydrogen bond acceptor and donor sites on both the asparagine molecule and the water molecules.
At pH 7, the asparagine side chain will be mostly in its neutral form (-CONH2), which means that it can donate and accept a hydrogen bond. Therefore, each asparagine molecule can potentially form two hydrogen bonds with water molecules: one from the amide nitrogen atom acting as a hydrogen bond donor and one from the carbonyl oxygen atom acting as a hydrogen bond acceptor.
Each water molecule can donate and accept up to two hydrogen bonds due to its polar nature, and thus can form hydrogen bonds with two asparagine molecules.
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Phospholipid bilayers are an effective barrier to many charged or polar solutes because of their __________ interior region
Phospholipid bilayers are an effective barrier to many charged or polar solutes because of their hydrophobic interior region.
What is a Phospholipid bilayer?This is referred to as a two-layered arrangement of phosphate and lipid molecules that form a cell membrane and comprises of the head and two tails.
The head “loves” water (hydrophilic) and the tails “hate” water (hydrophobic) and they are on the interior of the membrane while the hydrophilic end point outwards, toward either the cytoplasm or the fluid that surrounds the cell.
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______ is the process by which nerve cells are coated with far cells that enhances the speed and efficiency of the information traveling through the nervous system.
an example of an energy-requiring reaction is __________, which uses energy from the sun to produce sugars; an example of an energy releasing reaction is cellular ____________, which releases the energy in sugars.a. cellularb. photosynthesisc. respiration
what is a gene, dna, and a chromosome ordered least to greatest??
PLEASE HELP
Answer:
gene, chromosome, dna
Explanation: