Title |
Scientifur vol/no/page |
Authors |
Source |
Keywords |
Multiple genotypes infection and molecular characterization of Torque teno neovison virus: A novel Anelloviridae of mink in China |
47/4/91 |
Xin W., Guo Z., Wang L., Li Y., Shangguan H., Xue K., Chen H., Yang H., Zhao L.Z., Ge J. |
Res Vet Sci. 2023 Aug; 161: 145-155 |
co-infection, genomic sequence analysis, mink, phylogenetic analysis, torque teno virus |
Investigations into SARS-CoV-2 and other coronaviruses on mink farms in France late in the first year of the COVID-19 pandemic |
47/4/90 |
Wasniewski M., Boué F., Richomme C., Simon-Lorière E., van der Werf S., Donati F., Enouf V., Blanchard Y., Beven V., Leperchois E., Leterrier B., Corbet S., le Gouil M., Monchatre-Leroy E., Picard-Meyer E. |
PLoS One. 2023 Aug 25; 18 (8): e0290444 |
|
Risk assessment of SARS-CoV-2 replicating and evolving in animals |
47/4/89 |
Zhao J., Kang M., Wu H., Sun B., Baele G., He W.T., Lu M., Suchard M.A., Ji X., He N., Su S., Veit M. |
Trends Microbiol. 2023 Aug 2; S0966-842X (23) 00199-3 |
ACE2-binding, RBD, SARS-CoV-2, animal viruses, antibody neutralization, deep mutational scanning, mu |
Analysis of RBD-ACE2 interactions in livestock species as a factor in the spread of SARS-CoV-2 among animals |
47/4/89 |
Peka M., Balatsky V. |
Vet Anim Sci. 2023 Jul 12; 21: 100303 |
binding free energy, bioinformatic analysis, COVID-19, mutation, pandemic, receptor binding |
Mink farming poses risks for future viral pandemics |
47/4/88 |
Peacock T.P., Barclay W.S. |
PNAS, Vol. 120 (30) |
|
Mathematical modeling of SARS-CoV-2 transmission between minks and humans considering new variants and mink culling |
47/4/88 |
Ibrahim M.A., Dénes A. |
Trop Med Infect Dis. 2023 Aug 3; 8 (8): 398 |
COVID-19, SARS-CoV-2, SEIR and SVEIR compartmental models, culling and vaccination strategies, human |
Highly pathogenic avian influenza A(H5N1) virus infection on multiple fur farms in the South and Central Ostrobothnia regions of Finland, July 2023 |
47/4/88 |
Lindh E., Lounela H., Ikonen N., Kantalo T., Savolainen-Kopra C., Kauppinen A., Österlund P., Kareinen L., Katz A., Nokireki T., Jalava J., London L., Pitkäpaasi M., Vuolle J., Punto-Luoma A.L., Kaarto R., Voutilainen L., Holopainen R., Kalin-Mänttäri L., |
Euro Surveill. 2023 Aug; 28 (31): 2300400 |
avian influenza, Finland, H5N1, HPAI, fox, fur animal farms, highly pathogenic avian influenza, mamm |
Mink infection with influenza A viruses: an ignored intermediate host? |
47/4/87 |
Pun Mok C.K., Qin K. |
One Health Adv. 2023;1 (1): 5 |
influenza, mink, pandemic |
High subtelomeric GC content in the genome of a zoonotic Cryptosporidium species |
47/4/87 |
Li J., Li N., Roellig D.M., Zhao W., Guo Y., Feng Y., Xiao L. |
Microb Genom. 2023 Jul; 9 (7): mgen001052 |
Cryptosporidium canis, GC content, whole genome sequencing, codon usage, host-adaptive evolution |
Genomic characterization and phylogenetic analysis of Aleutian mink disease virus identified in a sudden death mink case |
47/4/86 |
Cui X., Yang Y., Wang F., Luo J., Zhang P., Chen H., Zhao L., Ge J. |
Comp Immunol Microbiol Infect Dis. 2023 Oct; 101: 102052 |
Aleutian mink disease virus, feature, genomic characterization, isolates, phylogenetic, sudden death |
Genetic diffences in variants of the AMD virus at the site of a disease outbreak |
47/4/86 |
Kondracki M., Jakubczak A., Kowalczyk M., Mazurkiewicz I., Moryl M., Kaczmarczyk J. |
Virology. 2023 Jul 28: 587: 109851 |
Aleutian mink disease virus, outbreak, sequencing, qPCR |
Application of quantitative real-time PCR to detect Mink Circovirus in minks, foxes and raccoon dogs in northern China |
47/4/86 |
Liu Y., Sheng C., Zhou Y., Li J., Gong Q., Shi K., Liu F., Xu L., Cui Z., Leng X., Du R. |
Front Microbiol. 2023 Jul 31; 14:1205297 |
mink circovirus, detection, epidemiological investigation, fur-bearing animals, quantitative real-ti |
First identification of canine adenovirus 1 in mink and bioinformatics analysis of its 100 K protein |
47/4/85 |
Hou J., Xu J., Wang B., Zhang H., Yin B., Li G., Lei F., Cai X., Zhu Y., Wang L. |
Front Microbiol. 2023 Aug 17; 14: 124558 |
100 K protein, CAdV-1, bioinformatics analysis, homology analysis, mink |
Domestication effect of reduced brain size is reverted when mink become feral |
47/4/85 |
Pohle A.K., Zalewski A., Muturi M., Dullin C., Farkova L., Keicher L., Dechmann D.K.N. |
R Soc Open Sci. 2023 Jul 5; 10 (7): 230463 |
American mink, brain size, domestication, feralization |
Tracking pollution from fur farms using forensic paleolimnology |
47/4/84 |
Kissinger J.A., Gregory B.R.B., Clarkson C., Libera N., Eickmeyer D.C., Kimpe L.E., Kurek J., Smol J.P., Blais J.M. |
Environ Pollut. 2023 Oct 15; 335: 122307 |
15N/14N, metals, mink farms, paleolimnology, sediments, sterols |
The welfare problems of wide-ranging carnivora reflect naturally itinerant lifestyles |
47/4/84 |
Bandeli M., Mellor E.L., Kroshko J., Maherali H., Mason G.J. |
R Soc Open Sci. 2023 Sep 6; 10 (9): 230437 |
carnivora, captivity, choice, control, welfare, zoos |
Metabolomic profiling of female mink serum during early to mid-pregnancy to reveal metabolite changes |
47/4/83 |
Luo Y., Huang Y., Deng L., Li Z., Li C. |
Genes (Basel). 2023 Sep 4; 14 (9): 1759 |
amino acid, embryonic diapause, metabolomic profiling, mink |
How was genetic diversity transferred with translocations from ex situ to in situ? A case study of the European mink translocation to Hiiumaa Island in Estoni |
47/4/83 |
Nummert G., Nemvalts K., Maran T. |
Zoo Biol. 2023 Jul-Aug; 42 (4): 557-566 |
Mustela lutreola, captive population, island population, microsatellite markers, mtDNA markers, popu |
Epidemiology, pathogenesis, and diagnosis of Aleutian disease caused by Aleutian mink disease virus: A literature review with a perspective of genomic breeding for disease control in American mink (Neogale vison) |
47/4/83 |
Vahedi S.M., Ardestani S.S., Banabazi M.H., Clark F. |
Virus Res. 2023 Aug 28; 336:199208 |
Aleutian disease, Aleutian mink disease virus, American mink, control, genomic selection, Neogale vi |
boration of massage technique for semen collection and examination of semen characteristics in chinchilla (Chinchilla lanigera) |
47/4/83 |
Babareczi B., Drobnyak A., Barna J., Kissne E.V., Szabo Z., Heincinger M., Kustos K., Szöke Z., Vegi B. |
PLoS One. 2023 Aug 31; 18 (8): e0290441 |
|
Application of molecular biology to the study of epidemiology and eradication of Aleutian mink disease: Environmental detection and phylogenetic studies |
47/3/69 |
Ricardo Fernandez Antonio |
PhD thesis |
|
Zooanthroponotic transmission of SARS-CoV-2 and host-specific viral mutations revealed by genome-wide phylogenetic analysis |
47/3/67 |
Naderi S., Chen P.E., Murall C.L., Poujo R., Kraemer S., Pickering B.S., Sagan S.M., Shapiro B.J. |
Elife. 2023 Apr 4; 12: e83685 |
SARS-CoV-2, evoutionary biology, genome-wide association study, genomic epidemiology, phylogeny, vir |
Identification of intestinal parasites in wild American mink (Neovison vison) from Biebrza and Narew national parks (Poland) |
47/3/67 |
Klockiewicz M., Jakubowski T., Karabowicz J., Baska P., Winiarska J., Dlugosz E. |
Parasitol Res. 2023 Jul; 122 (7): 1621-1629 |
A reservoir of infection, gastrointestinal parasites, intensity, prevalence, wild American mink (Neo |
Cryptic SARS-CoV-2 lineage identified on two mink farms as a possible result of long-term undetected circulation in an unknown animal reservoir, Poland, November 2022 to January 2023 |
47/3/66 |
Domanska-Blicharz K., Oude Munnink B.B., Orlowska A., Smreczak M., Opolska J., Lisowska A., Trebas P., Socha W., Giza A., Bomba A., Iwan E., Rola J., Koopmans M. |
Euro Surveill. 2023 Apr; 28 (16): 2300188 |
Poland, SARS-CoV-2, mink |
Cross-species transmission of coronaviruses with a focus on severe acute respiratory syndrome coronavirus 2 infection in animals: a review for the veterinary practitioner |
47/3/66 |
Dunowska M. |
N Z Vet J. 2023 Jul; 71(4): 159-171 |
COVID-19, New Zealand, SARS-CoV-2, animal coronaviruses, cross-species transmission |