The cell theory is based on three major premises: Cells are the basic units of life. Each cell must come from a preexisting cell. All living things are made up of cells. Which of the following discoveries was the last to be made?
Transmission of the disease to a susceptible human by handling contaminated surfaces is referred to as
Before carbohydrates are absorbed, __________ digest disaccharides into monosaccharides
Before carbohydrates are absorbed, the enzymes sucrase, maltase and lactase digest disaccharides into monosaccharides in the small intestine. Sucrase breaks down sucrose into glucose and fructose, maltase breaks down maltose into two glucose, and lactase breaks down lactose into glucose and galactose.
Sample prep _____ pcr amplification _____ pcr purification _____ sequencing prep _____ dna sequencing _____ sequence analysis
a. computer builds dna sequence to match
b. copy the bacterial dna
c. production of variable length dna samples
d. extract dna by dissolving cell wall with buffer
e. remove contaminants from dna f. separate the individual dna pieces by length
In ____________ , signals pass through a cell junction from one cell to adjacent cells.
Explain how epithelial and connective tissues combine to form four types of membranes
Consider this animal cell. Which organelle is responsible for producing the energy for cellular processes?
Answer:
The mitochondria is the key player in the animal cell energy production because it has no other element as important to that function.
Explanation:
The mitochondria are present in both animal and plant cells, nevertheless, the plant cells also have chloroplasts that are the major factor in the creation of the energy in the plant cell. Meanwhile, the animal cell has no presence of chloroplasts and they only rely on the mitochondria to carry on their energy-related activities. Therefore the mitochondria are considered the major energy function contributor in the animal cell.
A physician may be virtuous (kind, just, and honest) and still not know:
How does light intensity and the rate of photosynthesis relate to the position of the sun, both during the day and during the year?
Light intensity and photosynthesis rates are closely connected to the sun's position, which changes daily and seasonally due to Earth's tilt. Longer days in summer with more direct sunlight increase photosynthesis, while shorter, less intense light in winter decreases it. Plants use photoperiods, determined by sun position, to regulate vital processes like flowering and vegetative growth.
Explanation:The intensity of light and the rate of photosynthesis are directly related to the position of the sun, which varies both during the day and throughout the year due to the Earth's tilt and orbit. During the day, the sun's position affects the angle at which sunlight strikes the Earth’s surface, which in turn affects the intensity of light. When the sun is directly overhead, the light intensity is greatest and can increase the rate of photosynthesis. In contrast, when the sun is low on the horizon, sunlight is less intense as it travels through a greater amount of the Earth's atmosphere, resulting in a lower rate of photosynthesis.
Throughout the year, the Earth's tilt causes variations in day length and the sun's trajectory across the sky. Summer days, having longer hours of daylight and a higher sun elevation, provide more light, thereby enhancing photosynthesis. Conversely, winter has shorter days with less intense light, reducing the photosynthetic activity of plants. The photoperiod, or the duration of daylight, is a crucial indicator that plants use to sense seasonal changes and adjust their growth cycles accordingly. Plants detect these changes through a phytochrome system which involves the conversion of phytochrome molecules between different forms in response to red and far-red light found in sunlight.
For example, short-day plants flower when nights exceed a critical length, which occurs in late summer or early fall, whereas long-day plants flower in spring when nights are shorter than a critical length. This demonstrates how light intensity and day length, governed by the position of the sun, play essential roles in the life cycle of plants.
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The procedure that remove cerebrospinal fluid for diagnosing disorders is a(n) _____.
What model organism did mendel use for determining the inheritance of traits?
The recognition that two different stimuli call for two different responses is known as ____.
The answer is discrimination. It is a way of showing differentiation in terms of other categories such as things, animals, people or anything that exist. In which is connected to the statement above as it differentiates stimuli of different responses.
Statistically, which adolescent is most apt to experience menarche first?
Rebecca, who is African American is most apt to experience menarche first.
What do you mean by menarche?Menarche defines the onset of menstruation, which is a normal physiologic process that occurs at regular monthly intervals. Menarche typically occurs around age 12 but a few years earlier or later is completely normal. Menarche happens during a time of physical and sexual maturation in adolescence known as puberty.
Moreover, menarche is defined as the first menstrual period in a female adolescent. Menarche typically occurs between the ages of 10 and 16, with the average age of onset being 12.4 years.
Therefore, it is the stage of initiation of menstruation in the life of a female girl. it generally occurs at an age of 11-13 years. It refers to the beginning of the reproductive phase in girls.
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Robert Hook discovered cells when viewing a _____ under a microscope.
box
blood
cork
plant
Answer:
Cork
Explanation:
Increased muscle fiber endurance can be affected by __________.
According to the endosymbiotic theory and given the tree below, which was constructed from whole genome sequences or exemplar organisms from the three domains of life, where would be the most likely place for a branch containing the animal mitochondrial genome be connected? in other words, animal mitochondrial dna is most closely related to the complete genome of which type of organism?
True or false? the purkinje fibers are considered the pacemaker of the heart.
Amoebae move by crawling over a surface (cell crawling), which involves ________. amoebae move by crawling over a surface (cell crawling), which involves ________. assembly of microtubule extensions that vesicles can follow in the direction of movement reinforcement of the pseudopod with intermediate filaments growth of actin filaments to form bulges in the plasma membrane localized contractions driven by myosin and microtubules
The nurse recognizes that which patient condition is associated with a sweat chloride level of 75 mmol/l and chromosome 7 mutation's effect on the development of bone?
The olecranon process would be found on the __________.
Which particle is used to determine the atomic number of an element? A) Electron B) Neutron C) Proton D) Soutron
Which of these energy resources was not created by by the Sun's energy? petroleum uranium coal
Translation and protein synthesis is taking place at the ribosome in this illustration. Where did the original instructions for this process originate?
Answer:
DNA in nucleus
Explanation:
When using a rock hammer to take a sample of a rock in the field, which of the following pieces of safety equipment should you use?
A.
ear plugs
B.
heat-resistant gloves
C.
eye goggles
D.
apron
Which actions help keep your digestive system healthy?
Drink plenty of water and avoid fatty foods.
How did the Mesozoic era end
Tina's 5-year-old cousin comes into the clinic and you notice that her heart rate increases with inspiration and decreases with expiration. what is your differential diagnosis and treatment plan for this finding
It is a normal situation in children in which heart rate increases with inspiration and decreases with expiration and is called Sinus Arrhythmia. If you find that child is not facing any serious problem then no treatment is required.
Further explanation
Sinus Arrhythmia
Respiratory sinus arrhythmia, in which heart rate increases with inspiration and decreases with expiration, isn't an anomalous mood and is most generally found in youngsters. Sinus arrhythmia is available when the P wave morphology is ordinary and predictable and the P-P interims fluctuate by in excess of 120 milliseconds. Nonrespiratory sinus arrhythmia, in which phasic changes in sinus rate are not identified with the respiratory cycle, can be complemented by the utilization of vagal operators, for example, digitalis and morphine; its mechanism is unknown.
Children and Arrhythmia
For childeren, the pulse, or a number of times a heart pulsates every moment, can change. Exercise, for instance, makes the heart beat all the more frequently, while the pulse backs off during rest.
The "typical" pulse for a more established youngster or adolescent very still is around 70 beats for each moment. In a newborn child, the heart thumps 140 times each moment by and large.
A few arrhythmias, or sporadic pulses, are ordinary. For instance, in numerous kids, the pulse accelerates while taking in, at that point backs back off while breathing out. This heartbeat variety with breathing is called sinus arrhythmia, and it's no reason for concern.
In the event that your kid's primary care physician finds an arrhythmia, the individual in question will probably perform tests to find out additional. You could likewise prefer to a pediatric cardiologist, who works in heart issues in kids.
Treatment of sinus arrhythmia
If doctor finds unusual heartbeats, child feel weak and lightheaded, fainted then he will prescribe medicine. By realizing all that you can about arrhythmias, you can play a functioning job in your childcare. Also, rest guaranteed, a few treatment alternatives are accessible. Together, you and your kid's primary care physician can decide the correct game-plan.
Answer details
Subject: Biology
Level: High school
Keywords
Sinus Arrhythmia Children and Arrhythmia Treatment of sinus arrhythmiaLearn more to evaluate
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How can plants and animals affect neighboring cells directly?
Plants and animals affect neighboring cells directly because when in terms with the plants, they use their plasmodesmata in which allowed them to communicate and affect neighboring cells. While the animals use their gap junctions that is use for them to communicate and affect their neighboring cells.
Through Plasmodesmata in plants and Gap Junctions in animals.
Explanations;Plants contains structures called plasmodesmata .Plasmodesmata are open channels that are located in the cell walls of plant cells. Plasmodesmata allow cells to communicate with the neighboring cells. Animals on the other hand contain structures called Gap junctions in their cells.Gap junctions functions to connect cells to neighboring cells. Therefore; both plasmodesmata and gap junctions allow signaling substances dissolved in cytosol to pass freely between adjacent cell.The internal framework or stroma of organs such as the spleen, liver, and lymph nodes is made up of ________ tissue.
Final answer:
The internal framework or stroma of the spleen, liver, and lymph nodes is made up of reticular connective tissue, which is composed of reticular fibers forming a supportive mesh-like structure for these organs.
Explanation:
The internal framework or stroma of organs such as the spleen, liver, and lymph nodes is made up of reticular connective tissue. This tissue is mostly composed of reticular fibers that form a network or 'little net', supporting the shape and function of these organs. Reticular cells produce the reticular fibers that make up this mesh-like framework, which not only provides structural support but also serves as a scaffold for lymphatic and white blood cells.
Within the spleen, which is a component of the secondary lymphoid tissue, these reticular fibers support fixed macrophages and dendritic cells, as well as circulating B-lymphocytes and T-lymphocytes. This arrangement is essential for the spleen's function in filtering blood and capturing pathogens and antigens. Similarly, in lymph nodes, the reticular framework contains germinal centers rich in B and T lymphocytes, crucial for the immune response.
Sections of dna that code for a particular protein are called _____.
Sections of DNA that code for a specific protein are called genes. These genes contain codons, which are sequences of three nucleotides that specify individual amino acids, essential for creating proteins.
Sections of DNA that code for a particular protein are called genes. A gene is the specific section of DNA required to produce one protein. The information to make proteins, which are crucial for various cellular functions, is stored in an organism's DNA. Proteins are made up of hundreds or thousands of amino acids, and the genes that code for these proteins are typically hundreds or thousands of base pairs in length. Within the gene, sequences of nucleotides consisting of adenine (A), cytosine (C), thymine (T), and guanine (G), known as codons, specify the amino acids. Each codon is a sequence of three nucleotides that corresponds to a specific amino acid or a start or stop signal for protein synthesis.