In this video, we're going to do a review of the cell cycle by specifically talking about how you guys can memorize the steps of the cell cycle. And so here at Clutch Prep, we've come up with a really creative and interesting way to help you guys memorize the steps of the cell cycle. And so when you're trying to memorize the steps of the cell cycle, really, all you need to do is think about Club Procreate here. And so notice that we're showing you this disco ball here and these people partying in Club Procreate. And so I don't know about you guys, but I party particularly more at the club. And so if you can remember, I party particularly more at the club, then you'll be able to remember the steps of the cell cycle in the correct order. And so, of course, the I in here is going to represent the I in interphase. Then the p in party represents the p in prophase. The p in particularly represents the p in prometaphase. And, of course, you know that prophase is going to come before everything and prometaphase comes just before metaphase. And then, of course, the m in more represents the m in metaphase, the a in at represents the a in anaphase, the t in the represents the t in telophase, and the c in the club represents the c in cytokinesis. And so notice here that, we're also showing you some of the images of the events that occur in each of these phases. And so, you can see how in prophase here, the loosely coiled chromatin is going to condense into tightly coiled chromosomes. The centrosome is going to begin to, to move to opposite poles and start to form the mitotic spindle. Notice in prometaphase, the nucleus and nucleolus are going to disappear and break down. The centrosome are going to form mitotic spindles that ultimately attach to the chromosomes. In metaphase, the chromosomes are going to align in the middle of the cell. In anaphase, the sister chromatids are going to get pulled apart from one another. And in telophase, the tail end here, basically going to be the opposite events of prophase and prometaphase where the nucleus and nucleolus reform, the mitotic spindle breaks down and, the chromosomes are going to begin to unwind into the loosely coiled chromatin. And then, of course, mitosis only ends with a single cell. So notice there's just a single cell here that has 2 nuclei. And so in order for the complete cell division to occur, mitosis needs to be followed up by cytokinesis and cytokinesis is division of the cytoplasm which is going to fully separate the 2 cells. And so again, this here is just a review of the cell cycle, and by remembering, I party particularly more at the club, hopefully that can help you remember the steps of the cell cycle in the correct order. So this here concludes this video and I'll see you all in our next one.
Review of the Cell Cycle - Online Tutor, Practice Problems & Exam Prep
The cell cycle consists of distinct phases: interphase, prophase, prometaphase, metaphase, anaphase, telophase, and cytokinesis. To memorize these steps, use the mnemonic "I party particularly more at the club," where each word corresponds to a phase. During prophase, chromatin condenses into chromosomes, while in prometaphase, the nuclear envelope breaks down. Metaphase aligns chromosomes at the cell's center, anaphase separates sister chromatids, and telophase reforms the nucleus. Cytokinesis completes cell division by splitting the cytoplasm, resulting in two daughter cells.
Memorizing the Steps of the Cell Cycle
Video transcript
Movement of the chromosomes during anaphase would be most affected by a drug that:
a) Prevents the formation of a cleavage furrow.
b) Prevents the formation of the nuclear envelope.
c) Prevents elongation of microtubules.
d) Prevents shortening of microtubules.
Cytokinesis usually follows mitosis. If a cell completed mitosis but not cytokinesis, the result would be:
a) A cell with a single large nucleus.
b) A cell with high concentrations of actin and myosin.
c) A cell with two abnormally small nuclei.
d) A cell with two completely identical nuclei.
e) A cell with two non-identical nuclei with half the amount of DNA.