Hello Allierosez2424, It is a certain idea that regards to "every person is equal no matter the religion, culture, or in the condition they live in."
We can change the sentences from direct speech into indirect or reported speech in the following manner:
- I suggested going and playing then.
- He told me to go back home soon because it might rain.
- She said that the movie had been boring.
- They told us that everyone could join them for the picnic.
- John said it was frustrating that the WiFi was so slow that day.
- Chan asked if that wasn't boring to do.
- Mom told Eva it was time she started studying.
- Our teacher said it was important to wake up on time on school days.
<h3>What is direct speech?</h3>
- We have direct speech when we tell others what someone said using that person's exact words. To differentiate between speakers in the sentence, we use quotation marks.
- An example of direct speech is: Tina said, "I don't think we can make it."
<h3>What is indirect speech?</h3>
- We have indirect speech when we use our own words to tell others what someone said. Here, no quotation marks are used. Also, changes are made to the sentence:
- Verb tenses are used in the past form of the original ones.
- Subjects are adapted to show who said what.
- Time expressions also change to the past. For example: today - that day; now - then.
- Let's take the example above again: Tina said, "I <u>don't think we can</u> make it." If we change it into indirect speech, it becomes: Tina said <u>she didn't think they could</u> make it.
Learn more about indirect speech here:
brainly.com/question/15886943
Answer:
The answer is B) It gives us a significant glimpse into the narrator's mindset.
Explanation:
Answer:
The study of the cell cycle focuses on mechanisms that regulate the timing and frequency of DNA duplication and cell division. As a biological concept, the cell cycle is defined as the period between successive divisions of a cell. During this period, the contents of the cell must be accurately replicated. Microscopists had known about cell division for more than one hundred years, but not until the 1950s, through the pioneering work of Alma Howard and Stephen Pelc, did they become aware that DNA replication took place only at a specific phase of the cell cycle and that this phase was clearly separated from mitosis. Howard and Pelc's work in the broad bean, Vicia faba, revealed that the cell goes through many discrete phases before and after cell division. From this understanding, scientists then identified the four characteristic phases of the cell cycle: mitosis (M), gap 1 (G1), DNA synthesis (S), and gap 2 (G2). The study of these phases, the proteins that regulate them, and the complex biochemical interactions that stop or start DNA replication and cell division (cytokinesis) are the primary concerns of cell cycle biologists.
The most significant progress in this research field came with the demonstration that specific protein complexes involving cyclins were critical for regulating the passage of cells through the cell cycle. These early observations came from biological studies of the cells of rapidly dividing fertilized frog eggs as well as mutant yeast cells that could not divide. The observations suggested that regulation of the cell cycle is conserved throughout eukaryotes, which has since proved to be the case. The mechanism of division in bacteria differs from that of eukaryotes, and the control of their cell cycle is also somewhat different, although again it is linked with DNA replication.
Although the cell cycle is a highly integrated process, distinct areas of interest within this field of study have emerged. For instance, many genes and proteins that influence the passage from one phase of the cell cycle to another have been identified. When their expression is altered by mutation or aberrant regulation, they are usually classed as oncogenes. Other proteins act to hold the cell at distinct points in the cycle (checkpoints) and are known as tumor suppressor genes. Apart from those with a clearly regulatory role, many proteins have important functions in other aspects of the cell cycle; one is replication of DNA and organelles, which is a fascinating process that includes its own repair mechanisms and self-editing. Other fields focus primarily on the mechanical processes of cell cleavage into two daughter cells at the end of mitosis and on the condensation and decondensation of chromatin.
Explanation:
