CNRS Nantes University US2B US2B
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Normal Mode Analysis for ID 2406271857281231823

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 0.0646
mode 8 1.18 0.1719
mode 9 1.27 0.0417
mode 10 1.42 0.4065
mode 11 1.48 0.4768
mode 12 1.52 0.1289
mode 13 1.67 0.0816
mode 14 1.70 0.0662
mode 15 1.82 0.3968
mode 16 1.84 0.3554
mode 17 1.97 0.0271
mode 18 2.03 0.0565
mode 19 2.10 0.3512
mode 20 2.15 0.3301
mode 21 2.23 0.3655
mode 22 2.27 0.2015
mode 23 2.32 0.5942
mode 24 2.32 0.2405
mode 25 2.39 0.1369
mode 26 2.40 0.4882
mode 27 2.52 0.4315
mode 28 2.55 0.3904
mode 29 2.67 0.3543
mode 30 2.70 0.0973
mode 31 2.73 0.4322
mode 32 2.75 0.4384
mode 33 2.84 0.3134
mode 34 2.87 0.1967
mode 35 2.91 0.2972
mode 36 2.92 0.2221
mode 37 3.03 0.3445
mode 38 3.07 0.2826
mode 39 3.11 0.4346
mode 40 3.16 0.3919
mode 41 3.21 0.5137
mode 42 3.22 0.3829
mode 43 3.24 0.3243
mode 44 3.30 0.3378
mode 45 3.38 0.5077
mode 46 3.41 0.4228
mode 47 3.47 0.2438
mode 48 3.55 0.4015
mode 49 3.57 0.3843
mode 50 3.58 0.5593
mode 51 3.65 0.4433
mode 52 3.70 0.5016
mode 53 3.71 0.4205
mode 54 3.76 0.4765
mode 55 3.80 0.5738
mode 56 3.84 0.3790
mode 57 3.87 0.4664
mode 58 3.92 0.4166
mode 59 3.97 0.4322
mode 60 3.97 0.4940
mode 61 4.02 0.4540
mode 62 4.02 0.1846
mode 63 4.04 0.4717
mode 64 4.08 0.4054
mode 65 4.11 0.4007
mode 66 4.17 0.4124
mode 67 4.18 0.4265
mode 68 4.23 0.4275
mode 69 4.27 0.4446
mode 70 4.28 0.4693
mode 71 4.30 0.4826
mode 72 4.31 0.4442
mode 73 4.35 0.4792
mode 74 4.39 0.3893
mode 75 4.40 0.5475
mode 76 4.46 0.5813
mode 77 4.46 0.5285
mode 78 4.49 0.4755
mode 79 4.51 0.4503
mode 80 4.55 0.5612
mode 81 4.57 0.4384
mode 82 4.63 0.4861
mode 83 4.64 0.3699
mode 84 4.68 0.5146
mode 85 4.70 0.4484
mode 86 4.73 0.4222
mode 87 4.78 0.3612
mode 88 4.78 0.4362
mode 89 4.80 0.4692
mode 90 4.84 0.4060
mode 91 4.85 0.3542
mode 92 4.87 0.4763
mode 93 4.91 0.3886
mode 94 4.96 0.4728
mode 95 4.96 0.4987
mode 96 4.97 0.4691
mode 97 5.02 0.4556
mode 98 5.04 0.5243
mode 99 5.07 0.5310
mode 100 5.13 0.5116
mode 101 5.15 0.4068
mode 102 5.16 0.4716
mode 103 5.18 0.4942
mode 104 5.20 0.4425
mode 105 5.23 0.4375
mode 106 5.25 0.3867

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.