RacCS203

RacCS203
RacCS203
바이러스 분류 e
(랭킹되지 않음): 바이러스
영역: 리보비리아
킹덤: 오르토나비라과
망울: 피수비리코타
클래스: 피소니비리케테스
순서: 니도비라목
패밀리: 코로나비루스과
속: 베타코로나바이러스
하위 게놈: 사르베코바이러스
종:
변형률:
RacCS203

RacCS203태국의 사이트에서 온 아큐민성 말발굽 박쥐에서 채취한 박쥐에서 유래된 중증급성호흡기증후군 관련 코로나바이러스다.사스-CoV-2와 91.5%의 시퀀스 유사성을 가지고 있으며, RmYN02 변종과 가장 관련이 깊다.그것의 스파이크 단백질은 Rm과 밀접한 관련이 있다.YN02의 스파이크, 둘 다 사스-CoV-2의 스파이크와는 매우 다른 스파이크.[1][2]

계통유전학

계통생식나무

SARS-CoV-2 및 관련 코로나비루스의 유전적 순서에 기초한 계통생성 트리는 다음과 같다.[3][4]

SARS-CoV‑2 관련 코로나바이러스

(bat) Rc-o319, 일본[5] 이와테시 리놀로푸스 코르누투스 SARS-CoV-2에 81%

Bat SL-ZXC21, 88% SARS-CoV-2, 리놀로푸스푸실러스, 저우산, 저장성[6]

Bat SL-ZC45, SARS-CoV-2, 리놀로푸스푸실러스 88% 저장성[6] 저우산

판골린[7] 사스르-코브-GX 89% 마니스 자바니카 사스-코브-2에 89%

판골린 사스르-코브-GD 91% 마니스 자바니카 사스-코브-2로 동남아에서[8] 밀반입

Bat RshSTT182, 캄보디아[9] Steung Treng, Rinolophus shamely, SARS-CoV-2에 92.6% 사용

Bat RshSTT200, 캄보디아[9] Steung Treng, Rinolophus shamely, SARS-CoV-2에 92.6% 사용

(배트) RacCS203, 91.5% ~ SARS-CoV-2, Rinolophus acuminatus, 태국[4] 차초엥사오

(Bat) RmYN02년, 사스-CoV-2, 리놀로푸스 말라야누스, 멘글라, 윈난성[10] 93.3%

(배트) RpYN06, 사스-CoV-2, 리놀로푸스푸실러스, 시샹바나, 윈난시[3]

(bat) RaTG13, 사스-CoV-2, 리놀로푸스 아피니스, 모장, 윈난성에 96.1%

사스-코브-2

사스-코브-1, 사스-코브-2에 79%

게놈비교

SARS-CoV-2와 다른 SARSr-CoV 비교(뉴클레오티드 %)[11]
변형률 전신 게놈 ORF1ab S RBM ORF3a E M ORF6 ORF7a ORF7b ORF8 N ORF10
RaTG13 96.10% 96.50% 92.30% 86.30% 96.30% 99.60% 95.50% 98.40% 95.60% 99.20% 97.00% 96.90% 99.20%
RmYN02 93.60% 97.10% 72.50% 61.90% 96.40% 98.70% 94.80% 96.80% 96.20% 91.00% 48.70% 97.30% 99.20%
RacCS203 91.50% 94.30% 71.30% 61.60% 91.90% 99.10% 94.60% 96.20% 92.40% 93.90% 91.60% 93.20% 99.20%
GD/1/2019 90.20% 90.20% 83.70% 86.90% 93.20% 99.10% 93.30% 95.70% 93.40% 91.70% 92.10% 96.20% 99.20%
SL-ZC45 87.70% 89.00% 75.50% 62.50% 87.80% 98.70% 93.40% 94.60% 88.80% 94.70% 88.50% 91.10% 99.20%
SL-ZXC21 87.50% 88.70% 74.90% 61.60% 88.90% 98.70% 93.40% 94.60% 89.10% 95.50% 88.50% 91.20% 99.20%
GX-P4L 85.40% 84.80% 83.60% 80.00% 86.80% 97.40% 91.30% 90.90% 86.60% 83.50% 81.30% 91.00% 88.90%
GX-P5L 85.20% 84.60% 83.30% 79.90% 87.00% 97.40% 91.30% 90.90% 86.40% 83.50% 80.70% 91.00% 94.00%
사스-코브 79.30% 79.70% 72.30% 71.90% 75.30% 93.50% 85.50% 75.50% 82.10% 83.80% 45.80% 88.20% 93.20%
Rc-o319 79.20% 79.80% 72.20% 70.10% 83.30% 97.40% 86.60% 86.60% 78.40% 77.30% 52.30% 88.30% 94.90%
SARS-CoV-2와 다른 SARSr-CoV 비교(아미노산 %)[11]
변형률 전신 게놈 ORF1ab S RBM ORF3a E M ORF6 ORF7a ORF7b ORF8 N ORF10
RaTG13 98.50% 97.30% 90.10% 97.80% 100.00% 99.60% 100.00% 97.50% 97.70% 95.00% 99.10% 97.40%
RmYN02 98.80% 72.40% 63.20% 96.70% 100.00% 98.70% 96.70% 95.90% 83.70% 28.20% 98.60% 97.40%
RacCS203 97.30% 72.30% 63.70% 97.50% 100.00% 99.10% 98.40% 95.90% 93.00% 94.20% 95.70% -
GD/1/2019 96.70% 90.00% 96.90% 97.10% 100.00% 98.70% 96.70% 97.50% 95.40% 95.00% 97.90% 97.40%
SL-ZC45 95.60% 80.20% 65.90% 90.90% 100.00% 98.70% 93.40% 87.60% 93.00% 94.20% 94.30% 97.40%
SL-ZXC21 95.20% 79.70% 65.90% 92.00% 100.00% 98.70% 93.40% 88.40% 93.00% 94.20% 94.30% -
GX-P4L 92.50% 92.30% 86.60% 89.50% 100.00% 98.20% 95.10% 88.40% - 87.60% 93.60% 73.70%
GX-P5L 92.50% 92.40% 86.60% 89.80% 100.00% 98.20% 95.10% 88.40% 72.10% 87.60% 93.80% 84.20%
사스-코브 86.10% 75.80% 73.10% 72.40% 94.70% 90.50% 67.20% 85.30% 81.40% - 90.50% 81.60%
Rc-o319 87.60% 76.20% 73.50% 87.00% 98.70% 91.00% 83.60% 73.80% 69.80% 26.80% 89.50% 86.80%

참고 항목

  • RaTG13, 사스-COV-2와 96.2% 유사성
  • RmYN02, 사스-COV-2와 93.3% 유사성

참조

  1. ^ Wacharapluesadee, S; Tan, CW; Maneeorn, P; Duengkae, P; Zhu, F; Joyjinda, Y; Kaewpom, T; Chia, WN; Ampoot, W; Lim, BL; Worachotsueptrakun, K; Chen, VC; Sirichan, N; Ruchisrisarod, C; Rodpan, A; Noradechanon, K; Phaichana, T; Jantarat, N; Thongnumchaima, B; Tu, C; Crameri, G; Stokes, MM; Hemachudha, T; Wang, LF (9 February 2021). "Evidence for SARS-CoV-2 related coronaviruses circulating in bats and pangolins in Southeast Asia". Nature Communications. 12 (1): 972. Bibcode:2021NatCo..12..972W. doi:10.1038/s41467-021-21240-1. PMC 7873279. PMID 33563978.
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  6. ^ a b Zhou H, Chen X, Hu T, Li J, Song H, Liu Y, et al. (June 2020). "A Novel Bat Coronavirus Closely Related to SARS-CoV-2 Contains Natural Insertions at the S1/S2 Cleavage Site of the Spike Protein". Current Biology. 30 (11): 2196–2203.e3. doi:10.1016/j.cub.2020.05.023. PMC 7211627. PMID 32416074.
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  9. ^ a b Delaune, Deborah; Hul, Vibol; Karlsson, Erik A.; Hassanin, Alexandre; Ou, Tey Putita; Baidaliuk, Artem; Gámbaro, Fabiana; Prot, Matthieu; Tu, Vuong Tan; Chea, Sokha; Keatts, Lucy; Mazet, Jonna; Johnson, Christine K.; Buchy, Philippe; Dussart, Philippe; Goldstein, Tracey; Simon-Lorière, Etienne; Duong, Veasna (9 November 2021). "A novel SARS-CoV-2 related coronavirus in bats from Cambodia". Nature Communications. 12 (1): 6563. doi:10.1038/s41467-021-26809-4. ISSN 2041-1723.
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  11. ^ a b Wacharapluesadee, Supaporn; Tan, Chee Wah; Maneeorn, Patarapol; Duengkae, Prateep; Zhu, Feng; Joyjinda, Yutthana; Kaewpom, Thongchai; Chia, Wan Ni; Ampoot, Weenassarin; Lim, Beng Lee; Worachotsueptrakun, Kanthita (2021-02-09). "Evidence for SARS-CoV-2 related coronaviruses circulating in bats and pangolins in Southeast Asia". Nature Communications. 12 (1): 972. Bibcode:2021NatCo..12..972W. doi:10.1038/s41467-021-21240-1. ISSN 2041-1723. PMC 7873279. PMID 33563978.