Secondary structures in RNA
0
1
Entering edit mode
10.3 years ago
usketch ▴ 10

I'm using mfold in order to determine the structure of an RNA sequence. However, I don't quite understand how to intrepret the thermodynamic results. Say, I'm looking at the helix with -4.70 gibbs energy. Using the two closing pairs, "closing pair g94-c99" and "external closing pair c22-g73" how do I trace that helix structure out on the predicted structure?

Structural element     δG        Information
External loop          -1.50     12 ss bases & 1 closing helices.
Stack                  -2.50     External closing pair is g9-c126
Stack                  -1.50     External closing pair is u10-g125
Stack                  -2.10     External closing pair is c11-g124
Stack                  -1.30     External closing pair is u12-a123
Stack                  -2.20     External closing pair is a13-u122
Stack                  -1.40     External closing pair is c14-g121
Stack                  -2.10     External closing pair is g15-u120
Stack                  -3.40     External closing pair is g16-c119
       Helix           -16.50    9 base pairs.
Multi-loop             3.80      External closing pair is c17-g118
                                 4 ss bases & 3 closing helices.
Stack                  -2.50     External closing pair is g74-u117
Stack                  -3.30     External closing pair is c75-g116
Stack                  -2.10     External closing pair is c76-g115
Stack                  -1.40     External closing pair is u77-g114
Stack                  -3.30     External closing pair is g78-c113
Stack                  -2.20     External closing pair is g79-c112
       Helix           -14.80    7 base pairs.
Interior loop          3.30      External closing pair is u80-a111
Stack                  -2.10     External closing pair is c86-g107
       Helix           -2.10     2 base pairs.
Interior loop          -3.50     External closing pair is u87-g106
Interior loop          1.10      External closing pair is g90-c103
Stack                  -1.40     External closing pair is u92-g101
Stack                  -3.30     External closing pair is g93-c100
       Helix           -4.70     3 base pairs.
Hairpin loop           0.20      Closing pair is g94-c99
Stack                  -3.30     External closing pair is c22-g73
       Helix           -3.30     2 base pairs.
Bulge loop             1.70      External closing pair is c23-g72
Stack                  -2.20     External closing pair is a24-u70
Stack                  -3.30     External closing pair is c25-g69
Stack                  -3.30     External closing pair is c26-g68
Stack                  -2.10     External closing pair is c27-g67
Stack                  -2.10     External closing pair is u28-a66
       Helix           -13.00    6 base pairs.
Interior loop          1.60      External closing pair is g29-c65
Stack                  -3.40     External closing pair is g33-c60
       Helix           -3.40     2 base pairs.
Interior loop          0.70      External closing pair is c34-g59
Stack                  -3.30     External closing pair is c37-g56
Stack                  -2.40     External closing pair is c38-g55
Stack                  -2.40     External closing pair is g39-c54
       Helix           -8.10     4 base pairs.
Interior loop          2.20      External closing pair is a40-u53
Stack                  -2.40     External closing pair is u43-a50
       Helix           -2.40     2 base pairs.
Hairpin loop           4.50      Closing pair is c44-g49
structure mfold • 2.4k views
ADD COMMENT
1
Entering edit mode

What exactly is your question?

  • How does Mfold in general computes the energy?
  • Or how does Mfold calculate explicitly the closing loops?
ADD REPLY
0
Entering edit mode

@linus My question is what are external closing pairs, what are closing pairs, and what is the meaning the statement "3 base pairs" in this context. In the end I want to be able to understand/point out where the helix is in the predicted structure picture.

ADD REPLY
0
Entering edit mode

Okay maybe this helps:

g94 : Base G at position 94 in your sequence

c99: Base C at position 99 in your sequence

So your hairpin loop contains the sequence from 95-98 and is closed by the pair GC basepair.

(i can color it in the picture if you want.)

Ps: it is at the bottom next to the 100 ;)

ADD REPLY
0
Entering edit mode

Thank you! My other question is how does that relate to c22-g73 in the helix structure?

ADD REPLY
1
Entering edit mode
ADD REPLY

Login before adding your answer.

Traffic: 1973 users visited in the last hour
Help About
FAQ
Access RSS
API
Stats

Use of this site constitutes acceptance of our User Agreement and Privacy Policy.

Powered by the version 2.3.6