Corona-chan Escapes Containment

https://news.rthk.hk/rthk/en/component/k2/1504364-20200123.htm

https://www.rt.com/news/479705-china-develop-coronavirus-rapid-test/ New test detects it in 15mins.

>>79
Once virus gets out of qurantine, the per-capita spread ration increases, since virus reaches people who have more contacts with other people and various social hubs, like theaters.

https://boards.4chan.org/pol/thread/241876144/ncov-93-matching-to-hiv-in-some-regions

Similarity of 2019-nCov to HIV:

Sequences producing significant alignments:
Select for downloading or viewing reports
Description

Max Score

Total Score

Query Cover

E value

Per. Ident
Accession
Select seq HQ326133.1 HIV-1 isolate XJ16-6 envelope glycoprotein (env) gene, complete cds
43.7 43.7 0% 3.7 86.84% HQ326133.1
Select seq EU184986.1 HIV-1 clone XJ47 from China envelope glycoprotein (env) gene, partial cds
43.7 43.7 0% 3.7 86.84% EU184986.1
Select seq HQ217329.1 HIV-1 isolate JACH1853_A5 from USA envelope glycoprotein (env) gene, complete cds; and vpu protein (vpu), rev protein (rev), and tat protein (tat) genes, partial cds
42.8 42.8 0% 3.7 93.33% HQ217329.1
Select seq AY602109.1 HIV-1 isolate 2jb from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 3.7 85.00% AY602109.1
Select seq AY602108.1 HIV-1 isolate 1jf from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 3.7 85.00% AY602108.1
Select seq AY602107.1 HIV-1 isolate 3jg from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 3.7 85.00% AY602107.1
Select seq AY602104.1 HIV-1 isolate 1ja from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 3.7 85.00% AY602104.1
Select seq AY516986.1 Homo sapiens clone HIV1-H9-106 HIV-1 integration site
42.8 42.8 0% 3.7 92.86% AY516986.1
Select seq AF310652.1 HIV-1 isolate C113 from Zimbabwe envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 3.7 88.57% AF310652.1
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3AM476WK016

>>84

No way HIV part could got there by a random chance. And there is also huge implications that virus designers did experiments on human. You can't "debug" such virus in a lab tube or in a bat. Chinese probably tested it on poor Uyghurs.

If a millions died, China would become the new Nazi Germany.

A glimpse into People's Republic of /r/China_Flu
https://www.reddit.com/user/chinavirustracker/overview/?sort=controversial

Found results for similarity excluding Nidovirales, really spooky page.
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3B6GRE7501R

Your search is limited to records that exclude: Nidovirales (taxid:76804)

Select seq MN988669.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV WHU02, complete genome
53887 53887 99% 0.0 100.00% MN988669.1
Select seq MN988668.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV WHU01, complete genome
53887 53887 99% 0.0 100.00% MN988668.1
Select seq MN994468.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-CA2/2020, complete genome
53882 53882 99% 0.0 99.99% MN994468.1
Select seq MN997409.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-AZ1/2020, complete genome
53871 53871 99% 0.0 99.99% MN997409.1
Select seq MN994467.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-CA1/2020, complete genome
53857 53857 99% 0.0 99.98% MN994467.1
Select seq FJ429166.1 Recombinant SARS coronavirus, complete sequence
22273 26515 98% 0.0 80.25% FJ429166.1
Select seq FJ211859.1 Recombinant coronavirus clone Bat SARS-CoV, complete sequence
17042 26171 97% 0.0 80.81% FJ211859.1
Select seq FJ211860.1 Recombinant coronavirus clone Bat-SRBD spike glycoprotein gene, complete cds
2498 2609 10% 0.0 78.50% FJ211860.1
Select seq EU249350.1 Synthetic construct isolate rNDV/F3aa/2seg-SARS-S spike S, M protein (M), F3aa protein (F3aa), and HN protein (HN) genes, complete cds
2382 2382 12% 0.0 74.51% EU249350.1
Select seq AY569693.1 Expression vector pHCMV-SARS-S (FFM-1), complete sequence
2373 2373 12% 0.0 74.46% AY569693.1
Select seq AY910861.1 Synthetic construct murine hepatitis virus, complete genome
1154 1796 25% 0.0 66.00% AY910861.1
Select seq AY609081.1 Synthetic construct SARS coronavirus 3C-like protease gene, partial cds
1003 1003 3% 0.0 83.88% AY609081.1
Select seq FJ211861.1 Recombinant coronavirus clone NL63 ORF1A gene, complete cds; ORF1B gene, partial cds; and spike glycoprotein, ORF3, envelope protein, membrane protein, and nucleocapsid protein genes, complete cds
681 1301 20% 0.0 64.75% FJ211861.1
Select seq KT750258.1 Synthetic construct clone rIBYZ, complete sequence
638 1318 17% 7e-177 66.05% KT750258.1
Select seq AY862402.1 Expression vector pShuttle-SN, complete sequence
399 399 4% 3e-105 66.51% AY862402.1
Select seq AY247812.1 Arabidopsis thaliana hypothetical protein (At2g43960/F6E13.9) mRNA, complete cds
71.6 71.6 0% 2e-06 81.11% AY247812.1
Select seq AK026606.1 Homo sapiens cDNA: FLJ22953 fis, clone KAT09772
71.6 71.6 0% 2e-06 84.38% AK026606.1
Select seq AC229900.2 Homo sapiens FOSMID clone ABC10-841121B4 from chromosome unknown, complete sequence
70.7 70.7 0% 7e-06 92.00% AC229900.2
Select seq AC093768.3 Homo sapiens BAC clone RP11-113G13 from 4, complete sequence
70.7 70.7 0% 7e-06 92.00% AC093768.3
Select seq AK333336.1 Triticum aestivum cDNA, clone: WT006_D15, cultivar: Chinese Spring
69.8 69.8 0% 7e-06 91.67% AK333336.1
Select seq BC041937.1 Homo sapiens cDNA clone IMAGE:5301129
69.8 69.8 0% 7e-06 91.84% BC041937.1
Select seq KU696643.1 Synthetic construct clone BNSP333-Sdel29 recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696643.1
Select seq KU696642.1 Synthetic construct clone BNSP333-Sdel19 recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696642.1
Select seq KU696641.1 Synthetic construct clone BNSP333-Sdel16 recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696641.1
Select seq KU696640.1 Synthetic construct clone BNSP333-S recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696640.1
Select seq XM_017883284.1 PREDICTED: Rhinopithecus bieti cyclin D2 (CCND2), mRNA
68.9 68.9 0% 3e-05 85.25% XM_017883284.1
Select seq NM_001132955.1 Pongo abelii protein phosphatase 1 catalytic subunit beta (PPP1CB), mRNA
68.9 68.9 0% 3e-05 91.67% NM_001132955.1
Select seq NM_001040601.2 Bos taurus Ras suppressor protein 1 (RSU1), mRNA
68.0 68.0 0% 3e-05 83.87% NM_001040601.2
Select seq BC102118.1 Bos taurus ras suppressor protein 1, mRNA (cDNA clone MGC:126965 IMAGE:7898356), complete cds
68.0 68.0 0% 3e-05 83.87% BC102118.1
Select seq BC078411.1 Danio rerio guanine nucleotide binding protein-like 3 (nucleolar)-like, mRNA (cDNA clone IMAGE:7045022), partial cds
68.0 68.0 0% 3e-05 91.49% BC078411.1
Select seq AL845157.7 Mouse DNA sequence from clone RP23-343I2 on chromosome 2, complete sequence
68.0 68.0 0% 3e-05 88.89% AL845157.7
Select seq LR597573.1 Myripristis murdjan genome assembly, chromosome: 24
67.1 67.1 0% 9e-05 91.67% LR597573.1
Select seq LR597557.1 Myripristis murdjan genome assembly, chromosome: 8
65.3 115 0% 3e-04 93.02% LR597557.1
Select seq BC097084.1 Danio rerio ELK4, ETS-domain protein, mRNA (cDNA clone MGC:114016 IMAGE:7451003), complete cds
65.3 65.3 0% 3e-04 83.61% BC097084.1
Select seq XM_030472506.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X19, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472506.1
Select seq XM_030472498.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X18, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472498.1
Select seq XM_030472471.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X15, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472471.1
Select seq XM_030472432.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X10, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472432.1
Select seq XM_030472402.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X7, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472402.1
Select seq AC147684.4 Pan troglodytes BAC clone CH251-497P9 from Y, complete sequence
64.4 64.4 0% 3e-04 79.75% AC147684.4
Select seq AC147665.3 Pan troglodytes BAC clone CH251-134K23 from Y, complete sequence
64.4 64.4 0% 3e-04 79.75% AC147665.3
Select seq AC146186.3 Pan troglodytes BAC clone CH251-517F3 from Y, complete sequence
64.4 64.4 0% 3e-04 79.75% AC146186.3
Select seq AL669907.6 Mouse DNA sequence from clone RP23-245A5 on chromosome 11, complete sequence
63.5 63.5 0% 0.001 84.75% AL669907.6
Select seq X57302.1 Murine hepatitis virus MHV-A59 defective interfering (DI) RNA
63.5 63.5 0% 0.001 82.26% X57302.1
Select seq LR597470.1 Sphaeramia orbicularis genome assembly, chromosome: 13
62.6 165 0% 0.001 83.87% LR597470.1
Select seq BC010051.1 Synthetic construct Homo sapiens mRNA similar to RIKEN cDNA 2410153K17 gene (cDNA clone IMAGE:3840843)
62.6 62.6 0% 0.001 93.02% BC010051.1
Select seq XM_023202073.1 PREDICTED: Piliocolobus tephrosceles cyclin D2 (CCND2), mRNA
61.7 61.7 0% 0.004 82.26% XM_023202073.1
Select seq LT594495.1 Plasmodium malariae genome assembly, chromosome: 7
61.7 111 0% 0.004 83.33% LT594495.1
Select seq AC255484.1 Homo sapiens chromosome 4 clone CH17-144M16, complete sequence
61.7 61.7 0% 0.004 91.11% AC255484.1
Select seq MK204389.1 Sharp-tailed sandpiper Picornavirus B-like polyprotein gene, complete cds
60.8 112 0% 0.004 95.00% MK204389.1
Select seq LR606184.1 Aquila chrysaetos chrysaetos genome assembly, chromosome: 4
60.8 60.8 0% 0.004 88.46% LR606184.1
Select seq LR738544.1 Neostethus bicornis genome assembly, chromosome: 6
59.9 59.9 0% 0.013 80.00% LR738544.1
Select seq LT969447.1 Plasmodium sp. DRC-Itaito genome assembly, chromosome: 10
59.9 59.9 0% 0.013 92.50% LT969447.1
Select seq KX056075.1 Hedera helix hydroxymethylglutaryl-CoA synthase (HMGS) mRNA, complete cds
59.9 59.9 0% 0.013 85.19% KX056075.1
Select seq LT594631.1 Plasmodium malariae genome assembly, chromosome: 10
59.9 59.9 0% 0.013 83.05% LT594631.1
Select seq AC110816.7 Mus musculus BAC clone RP23-20P15 from chromosome 12, complete sequence
59.9 59.9 0% 0.013 92.50% AC110816.7
Select seq AC124492.4 Mus musculus BAC clone RP23-454I23 from chromosome 12, complete sequence
59.9 59.9 0% 0.013 92.50% AC124492.4
Select seq AK380659.1 Bombyx mori mRNA, clone: fufe08A06
59.0 59.0 0% 0.013 80.65% AK380659.1
Select seq AC182677.2 Populus trichocarpa clone Pop1-29G16, complete sequence
59.0 59.0 0% 0.013 90.48% AC182677.2
Select seq XM_030643118.1 PREDICTED: Cannabis sativa acidic leucine-rich nuclear phosphoprotein 32-related protein (LOC115714418), transcript variant X2, mRNA
58.1 58.1 0% 0.047 88.64% XM_030643118.1
Select seq XM_030643117.1 PREDICTED: Cannabis sativa acidic leucine-rich nuclear phosphoprotein 32-related protein (LOC115714418), transcript variant X1, mRNA
58.1 58.1 0% 0.047 88.64% XM_030643117.1
Select seq LR606183.1 Aquila chrysaetos chrysaetos genome assembly, chromosome: 3
58.1 58.1 0% 0.047 83.93% LR606183.1
Select seq LR131492.1 Plasmodium falciparum genome assembly, chromosome: 12
58.1 58.1 0% 0.047 97.06% LR131492.1
Select seq LR131476.1 Plasmodium falciparum genome assembly, chromosome: 11
58.1 58.1 0% 0.047 97.06% LR131476.1
Select seq LR131413.1 Plasmodium falciparum strain GB4 genome assembly, chromosome: 12
58.1 58.1 0% 0.047 97.06% LR131413.1
Select seq LR131349.1 Plasmodium falciparum strain HB3 genome assembly, chromosome: 12
58.1 58.1 0% 0.047 97.06% LR131349.1
Select seq CP034516.1 Eukaryotic synthetic construct chromosome 13
58.1 115 0% 0.047 86.00% CP034516.1
Select seq CP034491.1 Eukaryotic synthetic construct chromosome 13
58.1 115 0% 0.047 86.00% CP034491.1
Select seq XM_003776075.3 PREDICTED: Pongo abelii prothymosin alpha-like (LOC100446293), mRNA
58.1 58.1 0% 0.047 92.31% XM_003776075.3
Select seq KY432934.1 Picornavirales sp. isolate RtNn-PicoV/HuB2015-2 polyprotein gene, complete cds
58.1 58.1 0% 0.047 92.31% KY432934.1
Select seq KY432924.1 Picornavirales sp. isolate RtRn-PicoV/YN2014 polyprotein gene, complete cds
58.1 58.1 0% 0.047 92.31% KY432924.1
Select seq XM_014560000.1 PREDICTED: Camelus ferus fumarate hydratase (FH), transcript variant X3, mRNA
58.1 58.1 0% 0.047 86.00% XM_014560000.1
Select seq XM_014559999.1 PREDICTED: Camelus ferus fumarate hydratase (FH), transcript variant X2, mRNA
58.1 58.1 0% 0.047 86.00% XM_014559999.1
Select seq XM_006185551.2 PREDICTED: Camelus ferus fumarate hydratase (FH), transcript variant X1, mRNA
58.1 58.1 0% 0.047 86.00% XM_006185551.2
Select seq XM_010973416.1 PREDICTED: Camelus bactrianus fumarate hydratase (FH), transcript variant X3, mRNA
58.1 58.1 0% 0.047 86.00% XM_010973416.1
Select seq XM_010973405.1 PREDICTED: Camelus bactrianus fumarate hydratase (FH), transcript variant X2, mRNA
58.1 58.1 0% 0.047 86.00% XM_010973405.1
Select seq XM_010973394.1 PREDICTED: Camelus bactrianus fumarate hydratase (FH), transcript variant X1, mRNA
58.1 58.1 0% 0.047 86.00% XM_010973394.1
Select seq AL390739.8 Human DNA sequence from clone RP11-157F14 on chromosome 13, complete sequence
58.1 58.1 0% 0.047 86.00% AL390739.8
Select seq XM_031708108.1 PREDICTED: Actinia tenebrosa uncharacterized LOC116299449 (LOC116299449), mRNA
57.2 57.2 0% 0.047 82.14% XM_031708108.1
Select seq XM_031703883.1 PREDICTED: Actinia tenebrosa macro domain-containing protein lmo2759-like (LOC116295924), partial mRNA
57.2 57.2 0% 0.047 82.14% XM_031703883.1
Select seq CP032247.1 Gossypioides kirkii chromosome KI_05
57.2 57.2 0% 0.047 94.74% CP032247.1
Select seq CP032600.1 Lateolabrax maculatus linkage group 3 sequence
57.2 57.2 0% 0.047 86.00% CP032600.1
Select seq XM_014406751.2 PREDICTED: Cimex lectularius eukaryotic translation initiation factor 5A (LOC106674176), transcript variant X2, mRNA
57.2 57.2 0% 0.047 86.96% XM_014406751.2
Select seq XM_014406750.2 PREDICTED: Cimex lectularius eukaryotic translation initiation factor 5A (LOC106674176), transcript variant X1, mRNA
57.2 57.2 0% 0.047 86.96% XM_014406750.2
Select seq LT727661.1 Plasmodium knowlesi genome assembly, chromosome: PkA1H1_14_v1
57.2 57.2 0% 0.047 85.42% LT727661.1
Select seq BC008691.1 Homo sapiens Ras suppressor protein 1, mRNA (cDNA clone MGC:8886 IMAGE:3872071), complete cds
57.2 57.2 0% 0.047 83.64% BC008691.1
Select seq AL359262.9 Human DNA sequence from clone RP11-334O13 on chromosome 13, complete sequence
57.2 57.2 0% 0.047 87.23% AL359262.9
Select seq XM_030214183.1 PREDICTED: Microcaecilia unicolor cyclin D2 (CCND2), transcript variant X1, mRNA
56.3 56.3 0% 0.16 85.42% XM_030214183.1
Select seq LR597563.1 Myripristis murdjan genome assembly, chromosome: 14
56.3 109 0% 0.16 80.00% LR597563.1
Select seq MK521912.1 Tasmanian devil-associated astrovirus 1 isolate Stony Head/Tasmania/Sarcophilus_harrisii/2016/DN108473, complete genome
56.3 56.3 0% 0.16 96.97% MK521912.1
Select seq LR131461.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131461.1
Select seq LR131445.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131445.1
Select seq LR131429.1 Plasmodium falciparum strain KH1 genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131429.1
Select seq LR131397.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131397.1
Select seq LR131381.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131381.1
Select seq LR131365.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131365.1
Select seq LR131333.1 Plasmodium falciparum strain IT genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131333.1
Select seq LR131317.1 Plasmodium falciparum strain KH2 genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131317.1
Select seq LR131301.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131301.1
Select seq LR129697.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR129697.1

I've just made it match with virus Ortervirales, the broadest group in which HIV belongs to see random virus fragments matching from random species.
Order: Ortervirales <--Major virus order
Family: Retroviridae <--all retroviruses
Subfamily: Orthoretrovirinae
Genus: Lentivirus <--HIV belongs here
Human immunodeficiency virus 1
Human immunodeficiency virus 2

...and this is what i got:
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3B8JUBT8014
Your search is limited to records that include: Ortervirales (taxid:2169561)
Accession
Select seq KM214358.1 Sugarcane bacilliform virus isolate SCBV-CHN2, complete genome
43.7 43.7 0% 4.2 86.11% KM214358.1
Select seq HQ326133.1 HIV-1 isolate XJ16-6 envelope glycoprotein (env) gene, complete cds
43.7 43.7 0% 4.2 86.84% HQ326133.1
Select seq EU184986.1 HIV-1 clone XJ47 from China envelope glycoprotein (env) gene, partial cds
43.7 43.7 0% 4.2 86.84% EU184986.1
Select seq AJ277091.1 Sugarcane bacilliform IM virus complete genome, isolate Ireng Maleng
43.7 43.7 0% 4.2 80.43% AJ277091.1
Select seq HQ217329.1 HIV-1 isolate JACH1853_A5 from USA envelope glycoprotein (env) gene, complete cds; and vpu protein (vpu), rev protein (rev), and tat protein (tat) genes, partial cds
42.8 42.8 0% 4.2 93.33% HQ217329.1
Select seq AY602109.1 HIV-1 isolate 2jb from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 4.2 85.00% AY602109.1
Select seq AY602108.1 HIV-1 isolate 1jf from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 4.2 85.00% AY602108.1
Select seq AY602107.1 HIV-1 isolate 3jg from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 4.2 85.00% AY602107.1
Select seq AY602104.1 HIV-1 isolate 1ja from Spain envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 4.2 85.00% AY602104.1
Select seq AY516986.1 Homo sapiens clone HIV1-H9-106 HIV-1 integration site
42.8 42.8 0% 4.2 92.86% AY516986.1
Select seq AF310652.1 HIV-1 isolate C113 from Zimbabwe envelope glycoprotein (env) gene, partial cds
42.8 42.8 0% 4.2 88.57% AF310652.1

schizo

Matches for anything excluding viruses.
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3BE50NEF016

Select seq MN988669.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV WHU02, complete genome
53887 53887 99% 0.0 100.00% MN988669.1
Select seq MN988668.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV WHU01, complete genome
53887 53887 99% 0.0 100.00% MN988668.1
Select seq MN994468.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-CA2/2020, complete genome
53882 53882 99% 0.0 99.99% MN994468.1
Select seq MN997409.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-AZ1/2020, complete genome
53871 53871 99% 0.0 99.99% MN997409.1
Select seq MN994467.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-CA1/2020, complete genome
53857 53857 99% 0.0 99.98% MN994467.1
Select seq FJ429166.1 Recombinant SARS coronavirus, complete sequence
22273 26515 98% 0.0 80.25% FJ429166.1
Select seq FJ211859.1 Recombinant coronavirus clone Bat SARS-CoV, complete sequence
17042 26171 97% 0.0 80.81% FJ211859.1
Select seq FJ211860.1 Recombinant coronavirus clone Bat-SRBD spike glycoprotein gene, complete cds
2498 2609 10% 0.0 78.50% FJ211860.1
Select seq EU249350.1 Synthetic construct isolate rNDV/F3aa/2seg-SARS-S spike S, M protein (M), F3aa protein (F3aa), and HN protein (HN) genes, complete cds
2382 2382 12% 0.0 74.51% EU249350.1
Select seq AY569693.1 Expression vector pHCMV-SARS-S (FFM-1), complete sequence
2373 2373 12% 0.0 74.46% AY569693.1
Select seq AY910861.1 Synthetic construct murine hepatitis virus, complete genome
1154 1796 25% 0.0 66.00% AY910861.1
Select seq AY609081.1 Synthetic construct SARS coronavirus 3C-like protease gene, partial cds
1003 1003 3% 0.0 83.88% AY609081.1
Select seq FJ211861.1 Recombinant coronavirus clone NL63 ORF1A gene, complete cds; ORF1B gene, partial cds; and spike glycoprotein, ORF3, envelope protein, membrane protein, and nucleocapsid protein genes, complete cds
681 1301 20% 0.0 64.75% FJ211861.1
Select seq KT750258.1 Synthetic construct clone rIBYZ, complete sequence
638 1318 17% 7e-177 66.05% KT750258.1
Select seq AY862402.1 Expression vector pShuttle-SN, complete sequence
399 399 4% 3e-105 66.51% AY862402.1
Select seq AY247812.1 Arabidopsis thaliana hypothetical protein (At2g43960/F6E13.9) mRNA, complete cds
71.6 71.6 0% 2e-06 81.11% AY247812.1
Select seq AK026606.1 Homo sapiens cDNA: FLJ22953 fis, clone KAT09772
71.6 71.6 0% 2e-06 84.38% AK026606.1
Select seq AC229900.2 Homo sapiens FOSMID clone ABC10-841121B4 from chromosome unknown, complete sequence
70.7 70.7 0% 7e-06 92.00% AC229900.2
Select seq AC093768.3 Homo sapiens BAC clone RP11-113G13 from 4, complete sequence
70.7 70.7 0% 7e-06 92.00% AC093768.3
Select seq AK333336.1 Triticum aestivum cDNA, clone: WT006_D15, cultivar: Chinese Spring
69.8 69.8 0% 7e-06 91.67% AK333336.1
Select seq BC041937.1 Homo sapiens cDNA clone IMAGE:5301129
69.8 69.8 0% 7e-06 91.84% BC041937.1
Select seq KU696643.1 Synthetic construct clone BNSP333-Sdel29 recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696643.1
Select seq KU696642.1 Synthetic construct clone BNSP333-Sdel19 recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696642.1
Select seq KU696641.1 Synthetic construct clone BNSP333-Sdel16 recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696641.1
Select seq KU696640.1 Synthetic construct clone BNSP333-S recombinant rabies virus, complete sequence
68.9 126 0% 3e-05 75.96% KU696640.1
Select seq XM_017883284.1 PREDICTED: Rhinopithecus bieti cyclin D2 (CCND2), mRNA
68.9 68.9 0% 3e-05 85.25% XM_017883284.1
Select seq NM_001132955.1 Pongo abelii protein phosphatase 1 catalytic subunit beta (PPP1CB), mRNA
68.9 68.9 0% 3e-05 91.67% NM_001132955.1
Select seq NM_001040601.2 Bos taurus Ras suppressor protein 1 (RSU1), mRNA
68.0 68.0 0% 3e-05 83.87% NM_001040601.2
Select seq BC102118.1 Bos taurus ras suppressor protein 1, mRNA (cDNA clone MGC:126965 IMAGE:7898356), complete cds
68.0 68.0 0% 3e-05 83.87% BC102118.1
Select seq BC078411.1 Danio rerio guanine nucleotide binding protein-like 3 (nucleolar)-like, mRNA (cDNA clone IMAGE:7045022), partial cds
68.0 68.0 0% 3e-05 91.49% BC078411.1
Select seq AL845157.7 Mouse DNA sequence from clone RP23-343I2 on chromosome 2, complete sequence
68.0 68.0 0% 3e-05 88.89% AL845157.7
Select seq LR597573.1 Myripristis murdjan genome assembly, chromosome: 24
67.1 67.1 0% 9e-05 91.67% LR597573.1
Select seq LR597557.1 Myripristis murdjan genome assembly, chromosome: 8
65.3 115 0% 3e-04 93.02% LR597557.1
Select seq BC097084.1 Danio rerio ELK4, ETS-domain protein, mRNA (cDNA clone MGC:114016 IMAGE:7451003), complete cds
65.3 65.3 0% 3e-04 83.61% BC097084.1
Select seq XM_030472506.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X19, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472506.1
Select seq XM_030472498.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X18, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472498.1
Select seq XM_030472471.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X15, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472471.1
Select seq XM_030472432.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X10, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472432.1
Select seq XM_030472402.1 PREDICTED: Strigops habroptila ubiquitin protein ligase E3A (UBE3A), transcript variant X7, mRNA
64.4 64.4 0% 3e-04 88.00% XM_030472402.1
Select seq AC147684.4 Pan troglodytes BAC clone CH251-497P9 from Y, complete sequence
64.4 64.4 0% 3e-04 79.75% AC147684.4
Select seq AC147665.3 Pan troglodytes BAC clone CH251-134K23 from Y, complete sequence
64.4 64.4 0% 3e-04 79.75% AC147665.3
Select seq AC146186.3 Pan troglodytes BAC clone CH251-517F3 from Y, complete sequence
64.4 64.4 0% 3e-04 79.75% AC146186.3
Select seq AL669907.6 Mouse DNA sequence from clone RP23-245A5 on chromosome 11, complete sequence
63.5 63.5 0% 0.001 84.75% AL669907.6
Select seq X57302.1 Murine hepatitis virus MHV-A59 defective interfering (DI) RNA
63.5 63.5 0% 0.001 82.26% X57302.1
Select seq LR597470.1 Sphaeramia orbicularis genome assembly, chromosome: 13
62.6 165 0% 0.001 83.87% LR597470.1
Select seq BC010051.1 Synthetic construct Homo sapiens mRNA similar to RIKEN cDNA 2410153K17 gene (cDNA clone IMAGE:3840843)
62.6 62.6 0% 0.001 93.02% BC010051.1
Select seq XM_023202073.1 PREDICTED: Piliocolobus tephrosceles cyclin D2 (CCND2), mRNA
61.7 61.7 0% 0.004 82.26% XM_023202073.1
Select seq LT594495.1 Plasmodium malariae genome assembly, chromosome: 7
61.7 111 0% 0.004 83.33% LT594495.1
Select seq AC255484.1 Homo sapiens chromosome 4 clone CH17-144M16, complete sequence
61.7 61.7 0% 0.004 91.11% AC255484.1
Select seq LR606184.1 Aquila chrysaetos chrysaetos genome assembly, chromosome: 4
60.8 60.8 0% 0.004 88.46% LR606184.1
Select seq LR738544.1 Neostethus bicornis genome assembly, chromosome: 6
59.9 59.9 0% 0.013 80.00% LR738544.1
Select seq LT969447.1 Plasmodium sp. DRC-Itaito genome assembly, chromosome: 10
59.9 59.9 0% 0.013 92.50% LT969447.1
Select seq KX056075.1 Hedera helix hydroxymethylglutaryl-CoA synthase (HMGS) mRNA, complete cds
59.9 59.9 0% 0.013 85.19% KX056075.1
Select seq LT594631.1 Plasmodium malariae genome assembly, chromosome: 10
59.9 59.9 0% 0.013 83.05% LT594631.1
Select seq AC110816.7 Mus musculus BAC clone RP23-20P15 from chromosome 12, complete sequence
59.9 59.9 0% 0.013 92.50% AC110816.7
Select seq AC124492.4 Mus musculus BAC clone RP23-454I23 from chromosome 12, complete sequence
59.9 59.9 0% 0.013 92.50% AC124492.4
Select seq AK380659.1 Bombyx mori mRNA, clone: fufe08A06
59.0 59.0 0% 0.013 80.65% AK380659.1
Select seq AC182677.2 Populus trichocarpa clone Pop1-29G16, complete sequence
59.0 59.0 0% 0.013 90.48% AC182677.2
Select seq XM_030643118.1 PREDICTED: Cannabis sativa acidic leucine-rich nuclear phosphoprotein 32-related protein (LOC115714418), transcript variant X2, mRNA
58.1 58.1 0% 0.046 88.64% XM_030643118.1
Select seq XM_030643117.1 PREDICTED: Cannabis sativa acidic leucine-rich nuclear phosphoprotein 32-related protein (LOC115714418), transcript variant X1, mRNA
58.1 58.1 0% 0.046 88.64% XM_030643117.1
Select seq LR606183.1 Aquila chrysaetos chrysaetos genome assembly, chromosome: 3
58.1 58.1 0% 0.046 83.93% LR606183.1
Select seq LR131492.1 Plasmodium falciparum genome assembly, chromosome: 12
58.1 58.1 0% 0.046 97.06% LR131492.1
Select seq LR131476.1 Plasmodium falciparum genome assembly, chromosome: 11
58.1 58.1 0% 0.046 97.06% LR131476.1
Select seq LR131413.1 Plasmodium falciparum strain GB4 genome assembly, chromosome: 12
58.1 58.1 0% 0.046 97.06% LR131413.1
Select seq LR131349.1 Plasmodium falciparum strain HB3 genome assembly, chromosome: 12
58.1 58.1 0% 0.046 97.06% LR131349.1
Select seq CP034516.1 Eukaryotic synthetic construct chromosome 13
58.1 115 0% 0.046 86.00% CP034516.1
Select seq CP034491.1 Eukaryotic synthetic construct chromosome 13
58.1 115 0% 0.046 86.00% CP034491.1
Select seq XM_003776075.3 PREDICTED: Pongo abelii prothymosin alpha-like (LOC100446293), mRNA
58.1 58.1 0% 0.046 92.31% XM_003776075.3
Select seq XM_014560000.1 PREDICTED: Camelus ferus fumarate hydratase (FH), transcript variant X3, mRNA
58.1 58.1 0% 0.046 86.00% XM_014560000.1
Select seq XM_014559999.1 PREDICTED: Camelus ferus fumarate hydratase (FH), transcript variant X2, mRNA
58.1 58.1 0% 0.046 86.00% XM_014559999.1
Select seq XM_006185551.2 PREDICTED: Camelus ferus fumarate hydratase (FH), transcript variant X1, mRNA
58.1 58.1 0% 0.046 86.00% XM_006185551.2
Select seq XM_010973416.1 PREDICTED: Camelus bactrianus fumarate hydratase (FH), transcript variant X3, mRNA
58.1 58.1 0% 0.046 86.00% XM_010973416.1
Select seq XM_010973405.1 PREDICTED: Camelus bactrianus fumarate hydratase (FH), transcript variant X2, mRNA
58.1 58.1 0% 0.046 86.00% XM_010973405.1
Select seq XM_010973394.1 PREDICTED: Camelus bactrianus fumarate hydratase (FH), transcript variant X1, mRNA
58.1 58.1 0% 0.046 86.00% XM_010973394.1
Select seq AL390739.8 Human DNA sequence from clone RP11-157F14 on chromosome 13, complete sequence
58.1 58.1 0% 0.046 86.00% AL390739.8
Select seq XM_031708108.1 PREDICTED: Actinia tenebrosa uncharacterized LOC116299449 (LOC116299449), mRNA
57.2 57.2 0% 0.046 82.14% XM_031708108.1
Select seq XM_031703883.1 PREDICTED: Actinia tenebrosa macro domain-containing protein lmo2759-like (LOC116295924), partial mRNA
57.2 57.2 0% 0.046 82.14% XM_031703883.1
Select seq CP032247.1 Gossypioides kirkii chromosome KI_05
57.2 57.2 0% 0.046 94.74% CP032247.1
Select seq CP032600.1 Lateolabrax maculatus linkage group 3 sequence
57.2 57.2 0% 0.046 86.00% CP032600.1
Select seq XM_014406751.2 PREDICTED: Cimex lectularius eukaryotic translation initiation factor 5A (LOC106674176), transcript variant X2, mRNA
57.2 57.2 0% 0.046 86.96% XM_014406751.2
Select seq XM_014406750.2 PREDICTED: Cimex lectularius eukaryotic translation initiation factor 5A (LOC106674176), transcript variant X1, mRNA
57.2 57.2 0% 0.046 86.96% XM_014406750.2
Select seq LT727661.1 Plasmodium knowlesi genome assembly, chromosome: PkA1H1_14_v1
57.2 57.2 0% 0.046 85.42% LT727661.1
Select seq BC008691.1 Homo sapiens Ras suppressor protein 1, mRNA (cDNA clone MGC:8886 IMAGE:3872071), complete cds
57.2 57.2 0% 0.046 83.64% BC008691.1
Select seq AL359262.9 Human DNA sequence from clone RP11-334O13 on chromosome 13, complete sequence
57.2 57.2 0% 0.046 87.23% AL359262.9
Select seq XM_030214183.1 PREDICTED: Microcaecilia unicolor cyclin D2 (CCND2), transcript variant X1, mRNA
56.3 56.3 0% 0.16 85.42% XM_030214183.1
Select seq LR597563.1 Myripristis murdjan genome assembly, chromosome: 14
56.3 109 0% 0.16 80.00% LR597563.1
Select seq LR131461.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131461.1
Select seq LR131445.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131445.1
Select seq LR131429.1 Plasmodium falciparum strain KH1 genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131429.1
Select seq LR131397.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131397.1
Select seq LR131381.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131381.1
Select seq LR131365.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131365.1
Select seq LR131333.1 Plasmodium falciparum strain IT genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131333.1
Select seq LR131317.1 Plasmodium falciparum strain KH2 genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131317.1
Select seq LR131301.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR131301.1
Select seq LR129697.1 Plasmodium falciparum genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LR129697.1
Select seq LT963425.1 Plasmodium sp. gorilla clade G1 genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LT963425.1
Select seq CP017002.1 Plasmodium falciparum 3D7 chromosome 12 sequence
56.3 56.3 0% 0.16 96.97% CP017002.1
Select seq LN999947.1 Plasmodium falciparum 3D7 genome assembly, chromosome: 12
56.3 56.3 0% 0.16 96.97% LN999947.1
Select seq LK064790.1 Apteryx australis mantelli genome assembly AptMant0, scaffold scaffold15
54.5 54.5 0% 0.56 85.11% LK064790.1

Same thing for SARS, excluding viruses:
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3BENWFRV014
Select seq FJ429166.1 Recombinant SARS coronavirus, complete sequence
53564 53564 99% 0.0 99.94% FJ429166.1
Select seq FJ211859.1 Recombinant coronavirus clone Bat SARS-CoV, complete sequence
28755 37651 98% 0.0 88.03% FJ211859.1
Select seq MN997409.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-AZ1/2020, complete genome
22291 26532 98% 0.0 80.26% MN997409.1
Select seq MN988669.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV WHU02, complete genome
22291 26527 98% 0.0 80.26% MN988669.1
Select seq MN988668.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV WHU01, complete genome
22291 26527 98% 0.0 80.26% MN988668.1
Select seq MN994467.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-CA1/2020, complete genome
22287 26514 98% 0.0 80.26% MN994467.1
Select seq MN994468.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-CA2/2020, complete genome
22282 26520 98% 0.0 80.26% MN994468.1
Select seq EU249350.1 Synthetic construct isolate rNDV/F3aa/2seg-SARS-S spike S, M protein (M), F3aa protein (F3aa), and HN protein (HN) genes, complete cds
6787 6787 12% 0.0 99.95% EU249350.1
Select seq AY569693.1 Expression vector pHCMV-SARS-S (FFM-1), complete sequence
6771 6771 12% 0.0 99.84% AY569693.1
Select seq FJ211860.1 Recombinant coronavirus clone Bat-SRBD spike glycoprotein gene, complete cds
3766 3766 11% 0.0 83.90% FJ211860.1
Select seq AY862402.1 Expression vector pShuttle-SN, complete sequence
2713 2713 5% 0.0 99.48% AY862402.1
Select seq AY609081.1 Synthetic construct SARS coronavirus 3C-like protease gene, partial cds
1710 1710 3% 0.0 100.00% AY609081.1
Select seq AY910861.1 Synthetic construct murine hepatitis virus, complete genome
871 1398 18% 0.0 66.03% AY910861.1
Select seq FJ211861.1 Recombinant coronavirus clone NL63 ORF1A gene, complete cds; ORF1B gene, partial cds; and spike glycoprotein, ORF3, envelope protein, membrane protein, and nucleocapsid protein genes, complete cds
595 1032 17% 8e-164 64.95% FJ211861.1
Select seq KT750258.1 Synthetic construct clone rIBYZ, complete sequence
514 1025 14% 2e-139 64.90% KT750258.1
Select seq AL845157.7 Mouse DNA sequence from clone RP23-343I2 on chromosome 2, complete sequence
68.0 68.0 0% 3e-05 88.89% AL845157.7
Select seq XM_002997315.1 Phytophthora infestans T30-4 conserved hypothetical protein (PITG_18712) mRNA, complete cds
59.0 59.0 0% 0.013 84.91% XM_002997315.1
Select seq XM_029647696.1 PREDICTED: Oncorhynchus nerka proteoglycan 4-like (LOC115118971), mRNA
58.1 58.1 0% 0.046 86.79% XM_029647696.1
Select seq KU696643.1 Synthetic construct clone BNSP333-Sdel29 recombinant rabies virus, complete sequence
58.1 108 0% 0.046 72.73% KU696643.1
Select seq KU696642.1 Synthetic construct clone BNSP333-Sdel19 recombinant rabies virus, complete sequence
58.1 108 0% 0.046 72.73% KU696642.1
Select seq KU696641.1 Synthetic construct clone BNSP333-Sdel16 recombinant rabies virus, complete sequence
58.1 108 0% 0.046 72.73% KU696641.1
Select seq KU696640.1 Synthetic construct clone BNSP333-S recombinant rabies virus, complete sequence
58.1 108 0% 0.046 72.73% KU696640.1
Select seq BT123248.1 Picea sitchensis clone WS04710_M24 unknown mRNA
58.1 58.1 0% 0.046 85.71% BT123248.1
Select seq BT119098.1 Picea glauca clone GQ04101_H08 mRNA sequence
58.1 58.1 0% 0.046 85.71% BT119098.1
Select seq XM_030735833.1 PREDICTED: Archocentrus centrarchus eukaryotic translation initiation factor 3 subunit D (eif3d), mRNA
57.2 57.2 0% 0.046 84.31% XM_030735833.1
Select seq XM_006911547.3 PREDICTED: Pteropus alecto acidic nuclear phosphoprotein 32 family member B (ANP32B), mRNA
57.2 57.2 0% 0.046 84.31% XM_006911547.3
Select seq XM_023760387.1 PREDICTED: Myotis lucifugus acidic nuclear phosphoprotein 32 family member B (ANP32B), transcript variant X2, mRNA
57.2 57.2 0% 0.046 84.31% XM_023760387.1
Select seq XM_023760386.1 PREDICTED: Myotis lucifugus acidic nuclear phosphoprotein 32 family member B (ANP32B), transcript variant X1, mRNA
57.2 57.2 0% 0.046 84.31% XM_023760386.1
Select seq XM_016146283.1 PREDICTED: Rousettus aegyptiacus acidic nuclear phosphoprotein 32 family member B (ANP32B), mRNA
57.2 57.2 0% 0.046 84.31% XM_016146283.1
Select seq XM_006758441.2 PREDICTED: Myotis davidii acidic nuclear phosphoprotein 32 family member B (ANP32B), mRNA
57.2 57.2 0% 0.046 84.31% XM_006758441.2
Select seq XM_007927989.1 Pseudocercospora fijiensis CIRAD86 hypothetical protein partial mRNA
57.2 57.2 0% 0.046 84.31% XM_007927989.1
Select seq XM_005870642.1 PREDICTED: Myotis brandtii acidic (leucine-rich) nuclear phosphoprotein 32 family, member B (ANP32B), mRNA
57.2 57.2 0% 0.046 84.31% XM_005870642.1
Select seq BC097084.1 Danio rerio ELK4, ETS-domain protein, mRNA (cDNA clone MGC:114016 IMAGE:7451003), complete cds
57.2 57.2 0% 0.046 82.14% BC097084.1
Select seq XM_030214183.1 PREDICTED: Microcaecilia unicolor cyclin D2 (CCND2), transcript variant X1, mRNA
56.3 56.3 0% 0.16 85.42% XM_030214183.1
Select seq LR129740.1 Plasmodium vinckei brucechwatti strain 1-69 genome assembly, chromosome: 13
56.3 56.3 0% 0.16 85.42% LR129740.1
Select seq KX056075.1 Hedera helix hydroxymethylglutaryl-CoA synthase (HMGS) mRNA, complete cds
56.3 56.3 0% 0.16 85.71% KX056075.1
Select seq CP003653.1 Stanieria cyanosphaera PCC 7437, complete genome
56.3 56.3 0% 0.16 83.02% CP003653.1
Select seq BT110445.1 Picea glauca clone GQ03221_P09 mRNA sequence
56.3 56.3 0% 0.16 83.02% BT110445.1
Select seq LR215064.1 Plasmodium vinckei vinckei genome assembly, chromosome: PVVCY_08
55.4 55.4 0% 0.16 84.00% LR215064.1
Select seq XM_021318198.1 PREDICTED: Fundulus heteroclitus cilia- and flagella-associated protein 251-like (LOC105928548), transcript variant X2, mRNA
55.4 55.4 0% 0.16 86.67% XM_021318198.1
Select seq XM_021318197.1 PREDICTED: Fundulus heteroclitus cilia- and flagella-associated protein 251-like (LOC105928548), transcript variant X1, mRNA
55.4 55.4 0% 0.16 86.67% XM_021318197.1
Select seq XM_012225356.2 PREDICTED: Jatropha curcas flocculation protein FLO11 (LOC105640938), transcript variant X1, mRNA
55.4 55.4 0% 0.16 84.48% XM_012225356.2
Select seq XM_008626832.1 Plasmodium vinckei vinckei hypothetical protein partial mRNA
55.4 55.4 0% 0.16 84.00% XM_008626832.1
Select seq AY247812.1 Arabidopsis thaliana hypothetical protein (At2g43960/F6E13.9) mRNA, complete cds
55.4 55.4 0% 0.16 79.01% AY247812.1
Select seq AL669907.6 Mouse DNA sequence from clone RP23-245A5 on chromosome 11, complete sequence
55.4 55.4 0% 0.16 84.31% AL669907.6
Select seq AK026606.1 Homo sapiens cDNA: FLJ22953 fis, clone KAT09772
55.4 55.4 0% 0.16 81.82% AK026606.1
Select seq XM_029867650.1 PREDICTED: Aedes albopictus retinitis pigmentosa 1-like 1 protein (LOC109402926), mRNA
54.5 54.5 0% 0.56 88.10% XM_029867650.1
Select seq XM_019690037.2 PREDICTED: Aedes albopictus retinitis pigmentosa 1-like 1 protein (LOC109416070), mRNA
54.5 54.5 0% 0.56 88.10% XM_019690037.2
Select seq XM_029862367.1 PREDICTED: Aedes albopictus titin-like (LOC115260996), partial mRNA
54.5 54.5 0% 0.56 88.10% XM_029862367.1
Select seq XM_029123179.1 PREDICTED: Esox lucius zinc finger protein 652 (znf652), transcript variant X2, mRNA
54.5 54.5 0% 0.56 88.10% XM_029123179.1
Select seq XM_029123178.1 PREDICTED: Esox lucius zinc finger protein 652 (znf652), transcript variant X1, mRNA
54.5 54.5 0% 0.56 88.10% XM_029123178.1
Select seq NM_006401.3 Homo sapiens acidic nuclear phosphoprotein 32 family member B (ANP32B), mRNA
54.5 54.5 0% 0.56 82.69% NM_006401.3
Select seq XM_024418787.1 PREDICTED: Oncorhynchus tshawytscha ankyrin repeat domain-containing protein 11-like (LOC112249124), transcript variant X5, mRNA
54.5 54.5 0% 0.56 88.10% XM_024418787.1
Select seq XM_024418785.1 PREDICTED: Oncorhynchus tshawytscha ankyrin repeat domain-containing protein 11-like (LOC112249124), transcript variant X4, mRNA
54.5 54.5 0% 0.56 88.10% XM_024418785.1
Select seq XM_024418784.1 PREDICTED: Oncorhynchus tshawytscha ankyrin repeat domain-containing protein 11-like (LOC112249124), transcript variant X3, mRNA
54.5 54.5 0% 0.56 88.10% XM_024418784.1
Select seq XM_024418783.1 PREDICTED: Oncorhynchus tshawytscha ankyrin repeat domain-containing protein 11-like (LOC112249124), transcript variant X2, mRNA
54.5 54.5 0% 0.56 88.10% XM_024418783.1
Select seq XM_024418782.1 PREDICTED: Oncorhynchus tshawytscha ankyrin repeat domain-containing protein 11-like (LOC112249124), transcript variant X1, mRNA
54.5 54.5 0% 0.56 88.10% XM_024418782.1
Select seq LT972184.1 Larimichthys crocea genome assembly, chromosome: XVIII
54.5 54.5 0% 0.56 88.10% LT972184.1
Select seq XM_017883284.1 PREDICTED: Rhinopithecus bieti cyclin D2 (CCND2), mRNA
54.5 54.5 0% 0.56 83.02% XM_017883284.1
Select seq LT594495.1 Plasmodium malariae genome assembly, chromosome: 7
54.5 54.5 0% 0.56 83.02% LT594495.1
Select seq XM_008418731.2 PREDICTED: Poecilia reticulata pescadillo ribosomal biogenesis factor 1 (pes1), mRNA
54.5 54.5 0% 0.56 83.02% XM_008418731.2
Select seq XM_008565677.1 PREDICTED: Galeopterus variegatus acidic leucine-rich nuclear phosphoprotein 32 family member B-like (LOC103584836), partial mRNA
54.5 54.5 0% 0.56 82.69% XM_008565677.1
Select seq XM_008573030.1 PREDICTED: Galeopterus variegatus acidic (leucine-rich) nuclear phosphoprotein 32 family, member B (ANP32B), mRNA
54.5 54.5 0% 0.56 82.69% XM_008573030.1
Select seq XM_001741007.1 Entamoeba dispar SAW760 hypothetical protein EDI_204290 mRNA, complete cds
54.5 54.5 0% 0.56 82.69% XM_001741007.1
Select seq AK313733.1 Homo sapiens cDNA, FLJ94333, Homo sapiens acidic (leucine-rich) nuclear phosphoprotein 32family, member B (ANP32B), mRNA
54.5 54.5 0% 0.56 82.69% AK313733.1
Select seq BC000476.1 Homo sapiens cDNA clone IMAGE:2961642, **** WARNING: chimeric clone ****
54.5 54.5 0% 0.56 82.69% BC000476.1
Select seq BC072005.1 Homo sapiens cDNA clone IMAGE:3356831, **** WARNING: chimeric clone ****
54.5 54.5 0% 0.56 82.69% BC072005.1
Select seq BC008762.1 Homo sapiens F-box protein 22, mRNA (cDNA clone IMAGE:3349806), **** WARNING: chimeric clone ****
54.5 54.5 0% 0.56 82.69% BC008762.1
Select seq BC013003.2 Homo sapiens acidic (leucine-rich) nuclear phosphoprotein 32 family, member B, mRNA (cDNA clone MGC:3861 IMAGE:3010189), complete cds
54.5 54.5 0% 0.56 82.69% BC013003.2
Select seq AK223454.1 Homo sapiens mRNA for acidic (leucine-rich) nuclear phosphoprotein 32 family, member B variant, clone: FCC114H04
54.5 54.5 0% 0.56 82.69% AK223454.1
Select seq AL354726.17 Human DNA sequence from clone RP11-535C21 on chromosome 9, complete sequence
54.5 54.5 0% 0.56 82.69% AL354726.17
Select seq BC019658.1 Homo sapiens acidic (leucine-rich) nuclear phosphoprotein 32 family, member B, mRNA (cDNA clone MGC:25053 IMAGE:4478860), complete cds
54.5 54.5 0% 0.56 82.69% BC019658.1
Select seq U70439.1 Human silver-stainable protein SSP29 mRNA, complete cds
54.5 54.5 0% 0.56 82.69% U70439.1
Select seq Y07969.1 H.sapiens mRNA for APRIL protein
54.5 54.5 0% 0.56 82.69% Y07969.1
Select seq Y07570.1 H.sapiens mRNA for PHAPI2b protein
54.5 54.5 0% 0.56 82.69% Y07570.1
Select seq Y07569.1 H.sapiens mRNA for PHAPI2a protein
54.5 54.5 0% 0.56 82.69% Y07569.1
Select seq XM_031787481.1 PREDICTED: Oncorhynchus kisutch FK506-binding protein 4-like (LOC109886843), transcript variant X2, mRNA
53.6 53.6 0% 0.56 84.91% XM_031787481.1
Select seq XM_031787480.1 PREDICTED: Oncorhynchus kisutch FK506-binding protein 4-like (LOC109886843), transcript variant X1, mRNA
53.6 53.6 0% 0.56 84.91% XM_031787480.1
Select seq XM_031836971.1 PREDICTED: Oncorhynchus kisutch proteoglycan 4-like (LOC109900448), mRNA
53.6 53.6 0% 0.56 84.91% XM_031836971.1
Select seq XM_029736457.1 PREDICTED: Salmo trutta pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115176418), transcript variant X4, mRNA
53.6 53.6 0% 0.56 84.91% XM_029736457.1
Select seq XM_029736455.1 PREDICTED: Salmo trutta pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115176418), transcript variant X3, mRNA
53.6 53.6 0% 0.56 84.91% XM_029736455.1
Select seq XM_029736454.1 PREDICTED: Salmo trutta pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115176418), transcript variant X2, mRNA
53.6 103 0% 0.56 84.91% XM_029736454.1
Select seq XM_029736453.1 PREDICTED: Salmo trutta pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115176418), transcript variant X1, mRNA
53.6 103 0% 0.56 84.91% XM_029736453.1
Select seq XM_029746304.1 PREDICTED: Salmo trutta pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115186975), transcript variant X2, mRNA
53.6 53.6 0% 0.56 84.91% XM_029746304.1
Select seq XM_029746303.1 PREDICTED: Salmo trutta pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115186975), transcript variant X1, mRNA
53.6 53.6 0% 0.56 84.91% XM_029746303.1
Select seq XM_029650791.1 PREDICTED: Oncorhynchus nerka pollen-specific leucine-rich repeat extensin-like protein 1 (LOC115121673), mRNA
53.6 53.6 0% 0.56 84.91% XM_029650791.1
Select seq LR597465.1 Sphaeramia orbicularis genome assembly, chromosome: 8
53.6 53.6 0% 0.56 86.36% LR597465.1
Select seq LR584417.1 Salmo trutta genome assembly, chromosome: 37
53.6 103 0% 0.56 84.91% LR584417.1
Select seq LR584416.1 Salmo trutta genome assembly, chromosome: 3
53.6 53.6 0% 0.56 84.91% LR584416.1

53.6 53.6 0% 0.56 81.48% CP007389.1

https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3BG6AAZD01R
Bat coronavirus somehow matches 2 HIV sequences
Select seq JX972326.1 HIV-1 isolate B.700010470.w24.174dps.3_A27 from USA vif protein (vif) gene, complete cds; pol protein (pol) gene, partial cds; and vpr protein (vpr), tat protein (tat), rev protein (rev), vpu protein (vpu), envelope glycoprotein (env), and nef protein (nef) genes, complete cds
48.2 48.2 0% 0.098 86.05% JX972326.1
Select seq MG989618.1 HIV-1 isolate 2549585P000R_Sd from Thailand pol protein (pol) gene, partial cds; vif protein (vif) and vpr protein (vpr) genes, complete cds; nonfunctional tat protein (tat) and nonfunctional rev protein (rev) genes, complete sequence; vpu protein (vpu) gene, complete cds; nonfunctional envelope glycoprotein (env) gene, complete sequence; and nef protein (nef) gene, complete cds
42.8 42.8 0% 4.2 85.00% MG989618.1

So i've check what kind of viruses except Ortervirales the first sequence is related to:
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3BGDVHJB014
Its used in lots of synthethic constructs.
Lets see what it matches in Coronoviridae
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3BGKA5TC014
Select seq NC_034440.1 Bat coronavirus isolate PREDICT/PDF-2180, complete genome
48.2 48.2 0% 0.002 86.05% NC_034440.1
Select seq MK204411.1 Avian coronavirus non-structural polyprotein (ORF1ab), spike protein (S), 3a (3a), 3b (3b), envelope protein (3c), membrane glycoprotein, 5a (5a), 5b (5b), and nucleocapsid (N) genes, complete cds
37.4 37.4 0% 2.8 86.67% MK204411.1
Select seq MK204393.1 Avian coronavirus non-structural polyprotein (ORF1ab) and spike protein (S) genes, complete cds
37.4 37.4 0% 2.8 86.67% MK204393.1
Select seq KT254285.1 Duck-dominant coronavirus isolate DdCoV/DK/Guangdong/F11/2014 NSP14 (1ab) gene, partial cds
37.4 37.4 0% 2.8 86.67% KT254285.1
Select seq KM454473.1 Duck coronavirus isolate DK/GD/27/2014, complete genome
37.4 37.4 0% 2.8 86.67% KM454473.1
Select seq KY352407.1 Severe acute respiratory syndrome-related coronavirus strain BtKY72, complete genome
35.6 35.6 0% 9.8 91.67% KY352407.1

Now lets see the top HIV-1 match from >>88 Blast'ed for similarity in nidovirales:
https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3BGUV62H014



Select seq MN988713.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-IL1/2020, complete genome
43.7 43.7 1% 0.052 86.84% MN988713.1
Select seq MN985325.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV/USA-WA1/2020, complete genome
43.7 43.7 1% 0.052 86.84% MN985325.1
Select seq MN975262.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV_HKU-SZ-005b_2020, complete genome
43.7 43.7 1% 0.052 86.84% MN975262.1
Select seq MN938384.1 Wuhan seafood market pneumonia virus isolate 2019-nCoV_HKU-SZ-002a_2020, complete genome
43.7 43.7 1% 0.052 86.84% MN938384.1
Select seq NC_045512.2 Wuhan seafood market pneumonia virus isolate Wuhan-Hu-1, complete genome
43.7 43.7 1% 0.052 86.84% NC_045512.2
Select seq MH687949.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_76, complete genome
39.2 39.2 0% 0.64 92.31% MH687949.1
Select seq MH687947.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_63, complete genome
39.2 39.2 0% 0.64 92.31% MH687947.1
Select seq MH687935.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_24, complete genome
39.2 39.2 0% 0.64 92.31% MH687935.1
Select seq KY352407.1 Severe acute respiratory syndrome-related coronavirus strain BtKY72, complete genome
38.3 38.3 1% 2.2 89.29% KY352407.1
Select seq KF280270.1 Infectious bronchitis virus strain CK/CH/LHLJ/04V P110 clone 3, partial genome
38.3 38.3 1% 2.2 84.85% KF280270.1
Select seq KF280269.1 Infectious bronchitis virus strain CK/CH/LHLJ/04V P110 clone 2, partial genome
38.3 38.3 1% 2.2 84.85% KF280269.1
Select seq KF280268.1 Infectious bronchitis virus strain CK/CH/LHLJ/04V P110 clone 1, partial genome
38.3 38.3 1% 2.2 84.85% KF280268.1
Select seq MH687953.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_86, complete genome
36.5 36.5 0% 7.8 95.45% MH687953.1
Select seq MH687952.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_84, complete genome
36.5 36.5 0% 7.8 95.45% MH687952.1
Select seq MH687951.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_78, complete genome
36.5 36.5 0% 7.8 95.45% MH687951.1
Select seq MH687940.1 Alphacoronavirus sp. strain VZ_AlphaCoV_16715_45, complete genome
36.5 36.5 0% 7.8 95.45% MH687940.1
Select seq KC807170.1 Ngewotan virus strain JKT9982, complete genome
36.5 36.5 1% 7.8 84.85% KC807170.1
Select seq MG021452.1 Middle East respiratory syndrome-related coronavirus isolate NL140422, complete genome
35.6 35.6 0% 7.8 92.31% MG021452.1

Where can I order a molecular printer to print that shit together with the shell and then send the infected candies to Russian kids with love?

-nikita

Bioweapon confirmed:
https://nab.cx/t/coronavirus/comments/18e40a3da67ee432fa612580b84696368fe57b37/what-virus-has-the-best-match-for-hiv1-h9-106-hiv-1-integration-site-excluding-only-retroviruses-and-artificial-sequences

>>94
Needs to be posted on /r/Wuhan_Flu

https://www.reddit.com/r/China_Flu_Uncensored/comments/ex6unw/the_novel_coronavirus_is_weaponized_hiv_developed/

What exactly do these matching genes do? Why there were included?

A certain e-celeb wondered if there was a mango or animu about a dude spreading a deadly disease. Turns out there is: A Hong Kong movie titled Ebola Syndrome. Some sex addicted chink fugs a ebola corpse and then uses a schnitzel as onahole... You can watch how the rest of the movie goes here:
https://invidio.us/watch?v=LqIMjHpxJes

>>97
Upgrades "bad flu" into airborne AIDS that bypasses immune system.

Glowniggers ddosing nab.cx cover up the obvious HIV1-H9-106 HIV-1 link. Archive.is still up.
http://archive.is/oksV3

These idiots were playing with HIV proteins.
Wuhan Institute of Virology paper on modifying SARS with HIV protein. If it will be found they are responsible(and not CIA bioweapon) this would be the dumbest and costliest mistake in history.
https://link.springer.com/article/10.1007%2Fs00705-010-0729-6

Could this be the same proteins from censored indian paper???
https://greatgameindia.com/indian-scientists-discover-coronavirus-engineered-with-aids-like-insertions/

Sounds like both are about same spike glycoprotein(S)...
https://www.biorxiv.org/content/10.1101/2020.01.30.927871v1.full.pdf

Uncanny similarity of unique inserts in the 2019-nCoV spike protein to HIV-1 gp120 and Gag", Indian researchers are baffled by segments of the virus's RNA that have no relation to other coronaviruses like SARS, and instead appear to be closer to HIV

https://link.springer.com/article/10.1007%2Fs00705-010-0729-6
Here, we extended our previous study to ACE2 molecules from seven additional bat species and tested their interactions with human SARS-CoV spike protein using both HIV-based pseudotype and live SARS-CoV infection assays.
The results show that ACE2s of Myotis daubentoni and Rhinolophus sinicus support viral entry mediated by the SARS-CoV S protein

AIDS was first clinically observed in 1981 in the United States.[128] The initial cases were a cluster of injection drug users and gay men with no known cause of impaired immunity who showed symptoms of Pneumocystis pneumonia (PCP or PJP, the latter term recognizing that the causative agent is now called Pneumocystis jirovecii), a rare opportunistic infection that was known to occur in people with very compromised immune systems

>>99
Proof? I'm sure whole HIV genome was deciphered already, so its parts must have published and peer reviewed descriptions.

https://fightdogmeat.com/2020/01/24/china-wuhans-animal-suffering/

Time for China to rethink how it treats innocent animals, since if they don't respect animals life, they wont be caring about human life either, mishandling lab safety procedures.

China releasing a bioweapon intentionally on its own citizens doesn't make sense. Its either an accident or some foreign power:
The problem is, viruses don't respect borders and spread to foreign power lands.
Accidental release of research virus also doesn't make sense, such things are not built to be super-AIDS, they're altered for the exact purpose of research, like adding/removing some genes.

It must be some group that want to cripple rest of humanity and has the means to counteract the effect of the virus(probably vaccines?). A government agency can't operate on this level of autonomy. It can only be a secret society...

schizo spam thread
you won't die from this unless you're asian

>>107

China releasing a bioweapon intentionally on its own citizens doesn't make sense

Population control. It's the boomercaust so they don't have to look after them.

>>107
Viruses are far cleaner than nuclear weapon, yet have similar effects. Xi Jinping can hide from a virus in bunker, but he can't hide in a bunker from radiation or nuclear winter.

https://www.mk.ru/science/2020/01/27/ekspert-uvidel-priznaki-amerikanskogo-bioterrorizma-v-rasprostranenii-koronavirusa.html

>The expert saw signs of American bioterrorism in the spread of coronavirus
>MK asked to comment on the situation of the member of the UN Commission on Biological and Chemical Weapons Igor Nikulin.

The trailer for the 2011 Contagion movie
https://www.youtube.com/watch?v=4sYSyuuLk5g

Chinese are literally re-enacting it!

>>111
Here a nice lady from Emory University explains that the next flu virus will be asymptomatic
https://www.youtube.com/watch?v=0wdMZKzTXmc

WTF?!!!

China did mass sterilization of Uighur women to eradicate the ethnicity completely:
https://www.heritage.org/asia/commentary/chinas-forced-sterilization-uighur-women-cultural-genocide

The coronavirus weirdly has infected every single political dissident in China.
https://twitter.com/johncardillo/status/1224718478101438464

I.e. under the guise of quarantine, Chinese arrest all enemies of the state. After it gets over, nobody will be investigating the actual cause of death.

Some researchers claim that virus has parts similar not just to HIV, but to dengue virus: http://archive.is/QIBmE

But I doubt anyone here can confirm/disprove this research, without independently monitoring actual ward patients, since virus activity is impossible to properly simulate or even predict on contemporary computers.

>>116
One tiny fragment of potiskum virus(part of Flaviviridae, like dengue ) matches 100% to wuhan coronavirus:
http://archive.is/vuDg7

Did a search for wuhan coronavirus and got 100% matches in artificial sequences lead to this:
http://archive.is/xbVOR
It matches 100% for some transgenic mouse gene:
Mus musculus targeted non-conditional, lacZ-tagged mutant allele Nnat:tm1e(KOMP)Wtsi; transgenic

>>118
That mouse gene back-searched in RNA to 100% matching virus replicons of Hepatitis C and 99% for Encephalomyocarditis fragment
http://archive.is/3mbTD

I've searched for the Spike S protein that both scientists talked about in the paper.
It lead to results for near 100% matches to Newcastle virus which is used for killing cancer cells, avulavirus and SARS.
https://en.wikipedia.org/wiki/Virulent_Newcastle_disease#Use_as_an_anticancer_agent

https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Get&RID=3NKY72FD014
http://archive.is/3kqqx