CNRS Nantes University US2B US2B
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Normal Mode Analysis for ID 2406141033122805783

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 2 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 0.0252
mode 8 1.32 0.4326
mode 9 1.45 0.5277
mode 10 1.60 0.0760
mode 11 1.66 0.3212
mode 12 2.22 0.1932
mode 13 2.35 0.0065
mode 14 2.72 0.1884
mode 15 2.90 0.3771
mode 16 3.01 0.4906
mode 17 3.05 0.4211
mode 18 3.42 0.4627
mode 19 3.47 0.1720
mode 20 3.55 0.6237
mode 21 3.87 0.1682
mode 22 4.17 0.1885
mode 23 4.41 0.1645
mode 24 4.51 0.2322
mode 25 4.63 0.1365
mode 26 4.82 0.1330
mode 27 5.07 0.3876
mode 28 5.19 0.2232
mode 29 5.23 0.4405
mode 30 5.31 0.2111
mode 31 5.36 0.1700
mode 32 5.53 0.2648
mode 33 5.61 0.2919
mode 34 5.67 0.3897
mode 35 5.74 0.2497
mode 36 6.02 0.3724
mode 37 6.05 0.3315
mode 38 6.06 0.4124
mode 39 6.17 0.2918
mode 40 6.32 0.4306
mode 41 6.39 0.2775
mode 42 6.51 0.4678
mode 43 6.68 0.1833
mode 44 6.76 0.3326
mode 45 6.79 0.3464
mode 46 6.95 0.2327
mode 47 7.05 0.2402
mode 48 7.19 0.3585
mode 49 7.28 0.4300
mode 50 7.30 0.2910
mode 51 7.37 0.3280
mode 52 7.42 0.3069
mode 53 7.50 0.1188
mode 54 7.58 0.3626
mode 55 7.61 0.3931
mode 56 7.67 0.2331
mode 57 7.74 0.4468
mode 58 7.83 0.4868
mode 59 7.95 0.3606
mode 60 7.99 0.2417
mode 61 8.07 0.2856
mode 62 8.12 0.3290
mode 63 8.18 0.2994
mode 64 8.31 0.3866
mode 65 8.32 0.4042
mode 66 8.37 0.3646
mode 67 8.43 0.3525
mode 68 8.48 0.3932
mode 69 8.52 0.3518
mode 70 8.54 0.3502
mode 71 8.67 0.4800
mode 72 8.75 0.4354
mode 73 8.81 0.4463
mode 74 8.87 0.4327
mode 75 8.95 0.4274
mode 76 8.98 0.4825
mode 77 9.06 0.4604
mode 78 9.18 0.3265
mode 79 9.23 0.4818
mode 80 9.28 0.1900
mode 81 9.31 0.3099
mode 82 9.33 0.2862
mode 83 9.41 0.2877
mode 84 9.52 0.4326
mode 85 9.60 0.3762
mode 86 9.61 0.3859
mode 87 9.65 0.3436
mode 88 9.71 0.2656
mode 89 9.75 0.3007
mode 90 9.78 0.4558
mode 91 9.85 0.3578
mode 92 9.88 0.3534
mode 93 9.91 0.3843
mode 94 9.97 0.3046
mode 95 10.05 0.2534
mode 96 10.08 0.3138
mode 97 10.13 0.4043
mode 98 10.25 0.4079
mode 99 10.27 0.3380
mode 100 10.31 0.4789
mode 101 10.35 0.3937
mode 102 10.48 0.4215
mode 103 10.57 0.3709
mode 104 10.61 0.3286
mode 105 10.63 0.3432
mode 106 10.66 0.4364

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.