What is the Meaning of Persistence Length?

  • Thread starter Thread starter nancy189
  • Start date Start date
  • Tags Tags
    Length
AI Thread Summary
Persistence length is a key concept in understanding the flexibility of polymers, such as DNA and microtubules. It measures the distance over which a polymer behaves like a rigid rod versus a flexible noodle. At distances shorter than the persistence length, the polymer maintains a consistent direction, indicating rigidity. Conversely, at distances longer than the persistence length, the polymer's direction becomes uncorrelated, demonstrating increased flexibility. The persistence length is characterized by an exponential decay in the correlation of tangent angles as distance increases. This concept is crucial for analyzing the mechanical properties of long, flexible structures in biological systems. Additionally, challenges in calculating persistence length using correlation functions arise when dealing with negative values, which complicates fitting the exponential model.
nancy189
Messages
8
Reaction score
0
I was reading an article which talked about measuring the persistence length of DNA and microtubules. I didnt understand what the term meant, tried wikipedia but it confused me further. So could anyone explain what persistence length means in layman terms?

Nancy
 
Biology news on Phys.org
Persistence length is a way of measuring the point at which a polymer ceases to be treated like elastically and can be treated statically.
 
Thanks Ryan. Could you further elaborate on that?
 
nancy189 said:
Thanks Ryan. Could you further elaborate on that?

What are you struggling with?
 
The persistence length of a long object (such as a polymer) is a measure of the flexibility of that object. Imagine a long cord that is slightly flexible. At short distance scales, the cord will basically be rigid. If you look at the direction the cord is pointing at two points that are very close together, the cord will likely be pointing in the same direction at those two points (i.e. the angles of the tangent vectors are highly correlated). If you choose two points on the this flexible cord (imagine a piece of cooked spaghetti that you've just tossed on your plate) that are very far apart, however, the tangent to the cords at those locations will likely be pointing in different directions (i.e. the angles will be uncorrelated). If you plot out how correlated the tangent angles at two different points are as a function of the distance between the the two points, you'll get a plot that starts out at 1 (perfect correlation) at a distance of zero and drops exponentially as distance increases. The persistence length is the characteristic length scale of that exponential decay.
 
Ryan, I didn't understand what you meant by treating a polymer statically.

Thanks Ygggdrasil. That definitely cleared things. I was also wondering what will be the behavior of the cord in the following cases.
1. Its length is lower than the persistence length.
2. Its length is higher than the persistence length.

If I understood it correctly, I think the cord will be rigid in case 1 and more flexible in case 2. Please correct me if I am wrong.

Nancy
 
Yes, you are correct. When considering distances shorter than the persistence length, the cord acts much more like a stiff, rigid rod than a flexible noodle. For distances much longer than the persistence length, the cord acts much more like a flexible noodle than a rigid rod.
 
Ygggdrasil said:
The persistence length of a long object (such as a polymer) is a measure of the flexibility of that object. Imagine a long cord that is slightly flexible. At short distance scales, the cord will basically be rigid. If you look at the direction the cord is pointing at two points that are very close together, the cord will likely be pointing in the same direction at those two points (i.e. the angles of the tangent vectors are highly correlated). If you choose two points on the this flexible cord (imagine a piece of cooked spaghetti that you've just tossed on your plate) that are very far apart, however, the tangent to the cords at those locations will likely be pointing in different directions (i.e. the angles will be uncorrelated). If you plot out how correlated the tangent angles at two different points are as a function of the distance between the the two points, you'll get a plot that starts out at 1 (perfect correlation) at a distance of zero and drops exponentially as distance increases. The persistence length is the characteristic length scale of that exponential decay.
since the directions are opposite,how can i calculate the pl by '<u(0)·u(i)>=exp(-l/p)'.some values are negtive,so i can not fit the exponential line...what should i do?
thank you
 

Similar threads

More risk of osteoporosis in lactase persistent populations?
Replies
1
Views
2K
How Does Flickering Light Influence Our Brain's Perception of Image Brightness?
Replies
8
Views
4K
What is the role of randomness in human hair growth?
Replies
11
Views
2K
Epothilone B study connected to 'Hard Problem of Consciousness' Model
Replies
5
Views
2K
What Are Introns? Understanding Their Role in Gene Expression
Replies
4
Views
2K
What Are Telomeres and How Do They Relate to Aging?
Replies
8
Views
5K
I What causes time dilation and length contraction
Replies
10
Views
2K
Persistence length: What are the beginning and end point in an polymer?
Replies
3
Views
5K
Medical FDA antidepressant warnings of suicide risk among kids may have the opposite effect
Replies
1
Views
2K
B What is the physical significance of mass-time-length equivalences in physics?
Replies
8
Views
2K

Hot Threads

Recent Insights

Back
Top