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XBB.1.5 with S:F456L and Orf1b:A1643V apparently growing fastly in North Carolina , USA (48 sequences) #1614
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Good spot! But change the title to North Carolina as it's still entirely local to that region. Unfortunately, I don't think we have any good methods yet to estimate growth advantages from such a small cluster taking into account lack of diversity. One would want to compare it to other clusters that once looked similar and then check how they ended up after a few weeks or months. What do we know about the Spike mutation? Seems to be two or three labs, so likely to be real. |
It's a T22928C (C->T) mutation, one of the frequent ones. The S:F456L mutation has the following effect according to Bloom lab calculator (measured directly on BA.2 hence only with limited applicability given other backbone mutations acquired since): Immune escape: +0.11 (~10% of the remaining neutralizing antibody fraction is escaped) If these numbers are roughly correct, which is not necessarily true due to epistasis, this represents a big decrease in ACE2 affinity, to a worse level than before the S:F486P mutation but with additional immune escape. The ratio of the two scores +0.11 escape and -0.82 reduced binding is one that could be borderline beneficial, it's like that of some mutation that were beneficial in the past. If it turns out to be beneficial, it would represent an interesting 2-step move of XBB: first increasing ACE2 binding affinity through S486P, then trading that increase in affinity for immune escape. It's not surprising that 456L has not been seen much until now as the ACE2 binding decrease is rather large, making this mutation only survivable to viruses with already high ACE2 affinity. 456L appeared in some Delta lineages (AY.122) just before Omicron arrived. It's been trending upwards recently in a few lineages in Chile, Israel and the US, most notably in BQ.1.2, though it has not been a defining mutation of any Pango lineage yet. Let's monitor for now and designate if more sequences arrive, especially from other states/countries. |
Thx @corneliusroemer you're right 456 popped up at the end of the AYs era usually in combo with S:455 @c19850727 spotted and tracked a handful of them. |
L455 and F456 are important for ACE2-binding. They fill a gap between RBD and ACE2. To optimize ACE2-binding, these two residues need to be: 1. hydrophobic. 2. not too large or too small. Take a look at how BA.2 RBD interacts with ACE2. (PDB: 7XB0) |
No new sequences uploaded of this in the past 2 days. |
@corneliusroemer yes i checked that too, usually beyond NY there are not so much sequences from USA in the weekends. But still hoping that it has stopped growing. |
edited 5 new sequences uploaded today 4 from North Carolina 1 from South Carolina, from two different labs all collected recently between 17 -18 - january - 2023 |
48 sequences as today @corneliusroemer it is growing really fast. |
But a raw doubling per week is expected just based on XBB.1.5 alone. So not convinced this grows faster than XBB.1.5 - but let's designate to monitor. |
CC @corneliusroemer thx for designating. |
Edited:
Just today (05/08/23) i noticed that @DoropFan was tracking F456L very early in January.
https://twitter.com/DoropFan/status/1613024788053913600?s=20
Great move mate!
XBB.1.5 + S:F456L is showing advantage in the USA vs XBB.1.5:
https://cov-spectrum.org/explore/World/AllSamples/Past2M/variants?nextcladePangoLineage=XBB.1.5*&aaMutations1=S%3Af456L&nextcladePangoLineage1=XBB.1.5*&analysisMode=CompareToBaseline&
This could be due the fact it is spreading faster or instead could be a "cluster" effect we have already seen multiple times.
The fact its spread is limited to NC,Usa could hint to this second choice.
But still being a big escape mutation i think it is better to track it and eventually designate it early.
Tree:
https://nextstrain.org/fetch/genome.ucsc.edu/trash/ct/subtreeAuspice1_genome_1fe76_d08360.json?c=gt-S_456&label=id:node_7948420
Defining mutations: Orf1b:A1643V + S:F456L
Gisaid query: NSP14_A119V,Spike_f456L,Spike_F486P
Sequences: 29 all from North Carolina
EPI_ISL_16382307, EPI_ISL_16516179, EPI_ISL_16666034,
EPI_ISL_16666240, EPI_ISL_16668468, EPI_ISL_16668784,
EPI_ISL_16670511, EPI_ISL_16670915, EPI_ISL_16684579,
EPI_ISL_16687062, EPI_ISL_16687113-16687115, EPI_ISL_16706979,
EPI_ISL_16710451, EPI_ISL_16710497-16710498, EPI_ISL_16729952,
EPI_ISL_16729961, EPI_ISL_16729971, EPI_ISL_16742316,
EPI_ISL_16742323, EPI_ISL_16742474, EPI_ISL_16742476,
EPI_ISL_16742587, EPI_ISL_16742597, EPI_ISL_16763483,
EPI_ISL_16763523, EPI_ISL_16765064
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