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F+, F-, Hfr and F’ Cells – What is the Difference?

F+, F-, Hfr and F’ Cells – What is the Difference?

We talk about F+, F, Hfr and FCells when we talk about bacterial conjugation which is one of the modes of horizontal gene transfer in bacteria. And it is important that we understand what these cell types are and what is the difference.

  • F+ Cells:

These are the bacterial cells which contains the F plasmid. They are designated F+ simply because they have F plasmid. We know plasmid is an extrachromosomal DNA that can replicate independently. It is called F plasmid because it has F factor which is Fertility factor. This fertility factor contains the genes require for the transfer or conjugation.

F+ Cells = Cells containing F plasmid (F plasmid = Plasmid containing F factor) 

Figure 1. F+ Cells

  •  F Cells:

Fcells are the cells without F plasmid. These cells act as recipient cells because they don’t have F plasmid and thus they cannot donate the genetic material. They are designated as Fsimply because they do not have F plasmid.

F Cells = Cell lacking F plasmid

Figure 2.  F Cells

  • Hfr Cells: High frequency of recombination

We just talked about F plasmid. This F plasmid is an episome which means it can either exist as an independent unit or it can integrate itself into chromosomal DNA. This integration is possible because F plasmid also contains the insertion sequence and via homologous recombination it can integrate itself. So when this integration happens, the resultant cells or the derivative of F+ cells is called Hfr cells.

Why are they called Hfr? – When these Hfr cells cross with Fcells; along with F plasmid some part of donor chromosomal DNA also gets transferred in the recipient cells because F plasmid is integrated into donor chromosomal DNA. Therefore the recipient cells now have got three different types of DNA – its own chromosomal DNA, some part of F plasmid along with some part of donor’s chromosomal DNA. So because crossing with Hfr cells results in high degree of recombination in recipient cells such cells are called Hfr cells.

Hfr Cells = Derivatives of F+ cells where F plasmid has integrated into host chromosomal DNA

Figure 3. Hfr Cells

  • F’ Cells:

We just discussed that F plasmid is an episome so once it gets integrated into host chromosomal DNA, it can also disintegration itself back from the host chromosome. Sometime this disintegration is not accurate and while disintegrating from host chromosome; F plasmid might pick up some genes next to its disintegration sites. So such cells where the F plasmid has disintegrated and have got some genes of host chromosome are called F’ cells. They are the derivatives of Hfr cells.

F’ Cells = Derivatives of Hfr cells where F plasmid has disintegrated from host chromosome and picks up some host genes next to F plasmid integration sites

Figure 4. F’ Cells

Figure 5. Summary 

I hope this post helps 🙂

To understand more details, watch a video on this topic here.

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Antigen vs Pathogen – What is the Difference?

Antigen vs Pathogen – What is the Difference?

  • Pathogen –

We all might have experienced falling sick such as having fever or infection. In very simple term if I put it, the organism which has the ability to make us sick is called pathogen. An organism that can cause disease is called pathogen. Pathogens can be bacteria, viruses, fungi and even protozoa. Pathogens are foreign organisms which mean they are different than bacteria found in our body or on our skin (normal flora). Normal flora is friendly bacteria but pathogens are not, pathogens invade our body and cause disease.

When pathogen enters our body we would expect our immune system to fight against it. But do you know that our immune system or immune cells cannot recognize pathogen as whole. What they can recognize is a specific part (molecule) of a pathogen present on its surface. These specific molecules present on surface of pathogen and recognized by immune system is called antigen. 

  • Antigen – Antibody generator

Antigen means Antibody generator. It is a molecule located on the cell wall of bacteria or on coat of virus or on any other organism. Antigens are generally proteins but they can also be polysaccharides, nucleic acid or lipids.

These antigens present on pathogens are very specific for that particular pathogen. Such as an Ag present on Mycobacterium tuberculosis is unique to it and is different than an Ag present on Salmonella.

One more important thing to know about Ag is that the term Ag is not restricted to these surface molecules only. An Ag can be any foreign molecule which triggers immune response in our body. Such as MHC molecule from a different individual in organ transplant, some protein in food, component of serum etc.

So the major difference over here that we need to understand is Pathogen is a whole organism which causes the disease but Ag is part of this organism which is actually recognized by our immune system. 

Figure – Difference between Antigen and Pathogen

I hope this post helps 🙂

To understand more details, watch a video on this topic here.