Yes
The host cell would have transgenic DNA. A vector is often used to this.
Well im just going to type what it says in my bookIn bacterial viruses, the cycle of the viral infection, replication, and destruction is called the lytic cycle.During an infection, some viruses stay inside the cells but do not make new viruses. Instead of producing virus particles, the viral gene is inserted into the host chromosome and is called a provirus. Whenever the cell divides, the provirus also divides, resulting in two infected host cells. In this cycle, called the lysogenic cycle, the viral genome replicates without destorying the host cell. In some lysogenic viruses, change in the environment can causethe provirus to begin the lytic cycle, which means the destruction of the host cell.I hope this helps ^.^ --Pengi-Chan
The viral DNA that has integrated into a host cell's chromosome is called a provirus or prophage. This integrated viral DNA is replicated along with the host cell's DNA during cell division, allowing the virus to be passed on to daughter cells.
Sex cells, such as sperm and egg cells, are formed through the process of meiosis, which results in cells with half the chromosome number of the parent cell. This reduction in chromosome number is essential for sexual reproduction and ensures that when the sperm and egg cells combine during fertilization, the resulting zygote will have the normal chromosome number.
There will be two copies of each chromosome in all somatic cells called homologous chromosome..In case of reproductive cells there will be only one set during gamete formation...
The host cell would have transgenic DNA. A vector is often used to this.
When the host cell reproduces, the provirus is replicated along with the host cell's DNA. As the host cell divides, each daughter cell also inherits a copy of the provirus, which integrates into the genome of the new cells.
The cells are lysed during the lytic cycle, but they are not lysed during the lysogenic cycle.
Well im just going to type what it says in my bookIn bacterial viruses, the cycle of the viral infection, replication, and destruction is called the lytic cycle.During an infection, some viruses stay inside the cells but do not make new viruses. Instead of producing virus particles, the viral gene is inserted into the host chromosome and is called a provirus. Whenever the cell divides, the provirus also divides, resulting in two infected host cells. In this cycle, called the lysogenic cycle, the viral genome replicates without destorying the host cell. In some lysogenic viruses, change in the environment can causethe provirus to begin the lytic cycle, which means the destruction of the host cell.I hope this helps ^.^ --Pengi-Chan
During the lysogenic stage, the prophage inserts its DNA into the host bacterium's chromosome and replicates along with the host DNA. It is passed down to daughter cells during replication, ensuring its persistence within the host genome. The prophage remains dormant until triggered to enter the lytic cycle by external factors.
The Virus hides in the Hosts Cells DNA
The Virus hides in the Hosts Cells DNA
in the interphase
The viral DNA that has integrated into a host cell's chromosome is called a provirus or prophage. This integrated viral DNA is replicated along with the host cell's DNA during cell division, allowing the virus to be passed on to daughter cells.
Sex cells, such as sperm and egg cells, are formed through the process of meiosis, which results in cells with half the chromosome number of the parent cell. This reduction in chromosome number is essential for sexual reproduction and ensures that when the sperm and egg cells combine during fertilization, the resulting zygote will have the normal chromosome number.
There will be two copies of each chromosome in all somatic cells called homologous chromosome..In case of reproductive cells there will be only one set during gamete formation...
During meiosis, the chromosome number doubles because the cells replicate their DNA and split into two cells in meiosis I and in meiosis II, they replicate DNA and split once again, to form four cells.