CNRS Nantes University US2B US2B
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***  VirJD22  ***

Normal Mode Analysis for ID 2407151516463796982

The following table indicates for every normal mode its frequency (black, normalized relative to the lowest mode frequency) and its collectivity (magenta). If a second structure was submitted, the cummulative overlap between the normal modes and the conformational change is computed (red). The corresponding amplitude (dq) is then also given (green). Click on the mode link to obtain a visualization of the mean square displacement <R2> of the C-alpha atoms associated to each mode.

WARNING: there are 1 low-collectivity modes among your first 5 modes (see below)! The degree of collectivity indicates the fraction of residues that are significantly affected by a given mode. While low-frequency modes are expected to have collective character, computed ones sometimes happen to be localized. In such cases, they correspond to motions of some extended parts of the system, as often observed in crystallographic protein structures for N- and C-termini.

[HELP on collectivity] [HELP on overlap]

<R2> frequency collectivity
mode 7 1.00 0.6693
mode 8 1.27 0.6871
mode 9 1.33 0.6842
mode 10 1.87 0.0205
mode 11 2.39 0.3299
mode 12 2.48 0.4174
mode 13 2.62 0.4413
mode 14 2.97 0.4579
mode 15 3.14 0.5078
mode 16 3.43 0.2771
mode 17 3.77 0.3056
mode 18 3.81 0.0912
mode 19 3.92 0.2006
mode 20 3.96 0.1072
mode 21 4.10 0.2130
mode 22 4.21 0.3812
mode 23 4.37 0.1952
mode 24 4.64 0.2821
mode 25 4.85 0.3570
mode 26 4.92 0.3018
mode 27 4.97 0.3905
mode 28 5.11 0.3785
mode 29 5.17 0.3651
mode 30 5.23 0.0896
mode 31 5.44 0.1361
mode 32 5.45 0.1803
mode 33 5.53 0.2875
mode 34 5.61 0.4784
mode 35 5.69 0.3714
mode 36 5.76 0.3012
mode 37 5.82 0.2704
mode 38 5.86 0.3675
mode 39 5.95 0.4128
mode 40 6.04 0.2077
mode 41 6.08 0.3959
mode 42 6.12 0.3370
mode 43 6.18 0.3329
mode 44 6.32 0.4505
mode 45 6.37 0.1816
mode 46 6.37 0.3361
mode 47 6.44 0.5508
mode 48 6.48 0.5407
mode 49 6.57 0.4037
mode 50 6.62 0.4399
mode 51 6.67 0.3917
mode 52 6.72 0.3130
mode 53 6.87 0.4365
mode 54 6.92 0.4057
mode 55 6.94 0.4395
mode 56 6.97 0.5057
mode 57 7.09 0.5224
mode 58 7.18 0.4199
mode 59 7.25 0.5313
mode 60 7.27 0.3883
mode 61 7.31 0.2252
mode 62 7.39 0.2961
mode 63 7.47 0.4805
mode 64 7.57 0.3446
mode 65 7.63 0.3230
mode 66 7.66 0.4099
mode 67 7.69 0.4131
mode 68 7.78 0.4357
mode 69 7.86 0.3977
mode 70 7.89 0.3623
mode 71 7.92 0.4013
mode 72 8.00 0.3813
mode 73 8.08 0.3935
mode 74 8.10 0.2106
mode 75 8.19 0.3739
mode 76 8.28 0.2897
mode 77 8.32 0.2470
mode 78 8.37 0.3899
mode 79 8.39 0.4571
mode 80 8.45 0.3835
mode 81 8.51 0.3410
mode 82 8.57 0.4158
mode 83 8.63 0.3591
mode 84 8.67 0.4038
mode 85 8.69 0.3014
mode 86 8.73 0.4085
mode 87 8.81 0.4555
mode 88 8.84 0.3592
mode 89 8.89 0.4029
mode 90 8.93 0.3454
mode 91 8.99 0.3955
mode 92 9.07 0.5154
mode 93 9.10 0.3822
mode 94 9.13 0.4000
mode 95 9.21 0.4409
mode 96 9.26 0.4585
mode 97 9.30 0.4577
mode 98 9.36 0.3077
mode 99 9.40 0.4045
mode 100 9.42 0.4290
mode 101 9.47 0.2962
mode 102 9.53 0.4902
mode 103 9.56 0.4650
mode 104 9.61 0.5474
mode 105 9.63 0.4842
mode 106 9.67 0.5313

If you find results from this site helpful for your research, please cite one of our papers:

elNémo is maintained by Yves-Henri Sanejouand.
It was developed by Karsten Suhre.
Between 2003 and 2014, it was hosted by IGS (Marseille).
Last modification: April 25th, 2023.