CNRS Nantes University US2B US2B
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***  vp2-c4  ***

Normal Mode Analysis for ID 2408010529592259715

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 0.0611
mode 8 1.09 0.1799
mode 9 1.19 0.1671
mode 10 1.41 0.2643
mode 11 1.85 0.1268
mode 12 2.01 0.1854
mode 13 2.26 0.1171
mode 14 2.35 0.2640
mode 15 2.59 0.3117
mode 16 2.66 0.2233
mode 17 2.83 0.0999
mode 18 2.87 0.2781
mode 19 3.25 0.3179
mode 20 3.27 0.1009
mode 21 3.49 0.2624
mode 22 3.65 0.1087
mode 23 3.76 0.4180
mode 24 3.88 0.1272
mode 25 4.01 0.2568
mode 26 4.13 0.4372
mode 27 4.29 0.3936
mode 28 4.51 0.2698
mode 29 4.57 0.5227
mode 30 4.72 0.3004
mode 31 4.88 0.2959
mode 32 4.97 0.3595
mode 33 5.03 0.4806
mode 34 5.12 0.3573
mode 35 5.19 0.2596
mode 36 5.31 0.2435
mode 37 5.39 0.2377
mode 38 5.44 0.4529
mode 39 5.54 0.1672
mode 40 5.67 0.2616
mode 41 5.76 0.3233
mode 42 5.86 0.1739
mode 43 5.91 0.4354
mode 44 6.01 0.4162
mode 45 6.03 0.2703
mode 46 6.25 0.4692
mode 47 6.35 0.4235
mode 48 6.44 0.3827
mode 49 6.56 0.2244
mode 50 6.59 0.2213
mode 51 6.61 0.1714
mode 52 6.70 0.3676
mode 53 6.83 0.3150
mode 54 6.88 0.3924
mode 55 6.96 0.3086
mode 56 7.01 0.4278
mode 57 7.10 0.4274
mode 58 7.21 0.4312
mode 59 7.27 0.3490
mode 60 7.39 0.2670
mode 61 7.47 0.3871
mode 62 7.49 0.2301
mode 63 7.60 0.4556
mode 64 7.69 0.2575
mode 65 7.76 0.3011
mode 66 7.82 0.4522
mode 67 7.92 0.3992
mode 68 7.99 0.3376
mode 69 8.05 0.3033
mode 70 8.07 0.3304
mode 71 8.20 0.3061
mode 72 8.27 0.1684
mode 73 8.30 0.2955
mode 74 8.33 0.2909
mode 75 8.36 0.3912
mode 76 8.46 0.2686
mode 77 8.48 0.3097
mode 78 8.56 0.2847
mode 79 8.60 0.3981
mode 80 8.68 0.4699
mode 81 8.76 0.3291
mode 82 8.81 0.4297
mode 83 8.83 0.3804
mode 84 8.87 0.4120
mode 85 9.03 0.2465
mode 86 9.09 0.4653
mode 87 9.12 0.4802
mode 88 9.16 0.4556
mode 89 9.19 0.5031
mode 90 9.28 0.2116
mode 91 9.37 0.5271
mode 92 9.39 0.2002
mode 93 9.45 0.3810
mode 94 9.49 0.3534
mode 95 9.54 0.3442
mode 96 9.59 0.3129
mode 97 9.61 0.3647
mode 98 9.68 0.3324
mode 99 9.75 0.3153
mode 100 9.78 0.2894
mode 101 9.85 0.3764
mode 102 9.93 0.4515
mode 103 9.97 0.3740
mode 104 10.04 0.4242
mode 105 10.08 0.4058
mode 106 10.09 0.3645

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.