Fred J Fuller

Comparative Genomic Analysis Identifies Divergent Genomic Features of Pathogenic Enterococcus cecorum Including a Type IC CRISPR-Cas System, a Capsule Locus, an epa-Like Locus, and Putative Host Tissue Binding Proteins

PLOS ONE, 10(4).

Phylogenetic, taxonomic and functional diversity of fungal denitrifiers and associated N2O production efficacy

Soil Biology and Biochemistry, 83, 160–175.

Retroviridae

In D. McVey (Ed.), Veterinary Microbiology (Third). Blackwell-Wiley.

Detection of Chicken Proventricular Necrosis Virus (R11/3 Virus) in Experimental and Naturally Occurring Cases of Transmissible Viral Proventriculitis with the Use of a Reverse Transcriptase-PCR Procedure

AVIAN DISEASES, 55(1), 70–75.

Physical and Genomic Characteristics Identify Chicken Proventricular Necrosis Virus (R11/3 Virus) as a Novel Birnavirus

AVIAN DISEASES, 55(1), 2–7.

EIAV S2 enhances pro-inflammatory cytokine and chemokine response in infected macrophages

VIROLOGY, 397(1), 217–223.

Identification of cellular proteins interacting with equine infectious anemia virus S2 protein

VIRUS RESEARCH, 151(2), 235–239.

Virulence Determinants of Equine Infectious Anemia Virus

CURRENT HIV RESEARCH, 8(1), 66–72.

Phylogenetic analysis of spring virema of carp virus reveals distinct subgroups with common origins for recent isolates in North America and the UK

DISEASES OF AQUATIC ORGANISMS, 76(3), 193–204.

The S2 accessory gene of equine infectious anemia virus is essential for expression of disease in ponies

VIROLOGY, 349(1), 22–30.

Partial characterization of an adenovirus-like virus isolated from broiler chickens with transmissible viral proventriculitis

AVIAN DISEASES, 49(3), 344–351.

Antigenic and genomic characterization of turkey enterovirus-like virus (North Carolina, 1988 isolate): Identification of the virus as turkey astrovirus 2

AVIAN DISEASES, 48(1), 206–211.

Influence of long terminal repeat and Env on the virulence phenotype of equine infectious anemia virus

JOURNAL OF VIROLOGY, 78(5), 2478–2485.

Mechanism of feline immunodeficiency virus envelope glycoprotein-mediated fusion

VIROLOGY, 321(2), 274–286.

Retroviridae

In D. Hirsch, N. J. Maclachlan, & R. L. Walker (Eds.), Veterinary Microbiology (2nd ed., pp. 409–426). Ames, Iowa: Blackwell Publishing.

Cloning and sequencing hybrid striped bass (Morone saxatilis x M. chrysops) transforming growth factor-β (TGF-β), and development of a reverse transcription quantitative competitive polymerase chain reaction (RT-qcPCR) assay to measure TGF-β mRNA of teleost fish

Fish & Shellfish Immunology, 10(1), 61–85.

Nucleotide sequence and vaccinia expression of the nucleoprotein of a highly virulent, neurotropic strain of Newcastle disease virus

AVIAN DISEASES, 44(1), 34–44.

Long terminal repeat sequences of equine infectious anaemia virus are a major determinant of cell tropism.

Journal of General Virology, 80(3), 755–759.

Platelets from thrombocytopenic ponies acutely infected with equine infectious anemia virus are activated in vivo and hypofunctional

VIROLOGY, 259(1), 7–19.

Sequence analysis of the matrix nucleocapsid gene region of turkey coronavirus

INTERVIROLOGY, 42(1), 22–29.

Sequence analysis of the turkey coronavirus nucleocapsid protein gene and 3 ' untranslated region identifies the virus as a close relative of infectious bronchitis virus

VIRUS RESEARCH, 65(2), 187–193.

Disease induction by virus derived from molecular clones of equine infectious anemia virus

Journal of Virology, 72(1), 483–487.

Characterization and mutational studies of equine infectious anemia virus dUTPase

BIOCHIMICA ET BIOPHYSICA ACTA-PROTEIN STRUCTURE AND MOLECULAR ENZYMOLOGY, 1339(2), 181–191.

Genes controlling retroviral virulence

Advances in Veterinary Medicine, 40(1997), 135–155.

Equine infectious anemia virus replication is upregulated during differentiation of blood monocytes from acutely infected horses

Journal of Virology, 70(1), 590–594.

Phorbol ester stimulation of equine macrophage cultures alters expression of equine infectious anemia virus

Veterinary Microbiology, 52(3-4), 209–221.

Detection of pseudorabies viral DNA in tonsillar epithelial cells of latently infected pigs

American Journal of Veterinary Research, 56(5), 587–594.

Incorporation of Uracil into Viral DNA Correlates with Reduced Replication of EIAV in Macrophages

Virology, 210(2), 302–313.

Characterization of infectious molecular clones of equine infectious anaemia virus

Journal of General Virology, 75(2), 425–429.

The immunopathogenesis of equine infectious anemia virus

Virus Research, 32(2), 111–138.

Characterization of equine infectious anemia virus dUTPase: Growth properties of a dUTPase-deficient mutant

Journal of Virology, 67, 2592–2600.

Production and characterization of a monoclonal antibody recognizing a cytoplasmic antigen of equine mononuclear phagocytes

Veterinary Immunology and Immunopathology, 36(4), 303–318.

Nucleotide Sequence of the Tick-borne Orthomyxo-like Dhori/India/1313/61 Virus Membrane Protein Gene

Journal of General Virology, 73(10), 2609–2616.

The surface envelope protein gene region of equine infectious anemia virus is not an important determinant of tropism in vitro

Journal of Virology, 66(7), 4085–4097.

Wild-type equine infectious anemia virus replicates in vivo predominantly in tissue macrophages, not in peripheral blood monocytes

Journal of Virology, 66(10), 5906–5913.

Evolutionary relatedness of the predicted gene product of RNA segment 2 of the Tick-Borne Dhori virus and the PB1 polymerase gene of influenza viruses

Virology, 182(1), 1–7.

Immune-mediated thrombocytopenia in horses infected with equine infectious anemia virus

Journal of Virology, 65(11), 6242–6251.

Equine infectious anemia virus derived from a molecular clone persistently infects horses

Journal of Virology, 64(12), 5750–5756.

Nucleotide sequence of the tick-borne, orthomyxo-like Dhori/Indian/1313/61 virus envelope gene

Virology, 175(1), 10–18.

Bluetongue Virus Genome Remains Stable throughout Prolonged Infection of Cattle

Journal of General Virology, 69(10), 2629–2636.

Comparison of virologic and serologic responses of lambs and calves infected with bluetongue virus Serotype 10

Veterinary Microbiology, 18(3-4), 233–242.

Nucleotide sequence of the envelope protein genes of a highly virulent, neurotropic strain of newcastle disease virus

Virology, 165(1), 291–295.

Nucleotide sequence of the major structural protein genes of the tick-borne, orthomyxo-like Dhori/Indian/1313/61 virus

Virus Research, 11, 49.

Complete nucleotide sequence of the tick-borne, orthomyxo-like Dhori/Indian/1313/61 virus nucleoprotein gene

Virology, 160(1), 81–87.

Humoral immune response of calves to bluetongue virus infection

American Journal of Veterinary Research, 48(7), 1031–1035.

Nucleic acid sequence analysis of Sindbis pathogenesis and penetration mutants

In M. A. Brinton & R. Rueckert (Eds.), Positive strand RNA viruses : proceedings of a UCLA symposium held in Keystone, Colorado, April 20-26, 1986. New York: Alan R. Liss, Inc.

A single nucleotide change in the E2 glycoprotein gene of Sindbis virus affects penetration rate in cell culture and virulence in neonatal mice.

Proceedings of the National Academy of Sciences, 83(18), 6771–6775.

Genetic stability in calves of a single strain of bluetongue virus

American Journal of Veterinary Research, 47(4), 762–764.

Turkey Coryza: Lack of Correlation between Plasmids and Pathogenicity of Bordetella avium

Avian Diseases, 30(3), 593.

Coding Analyses of Bunya­virus RNA Species

In Segmented Negative Strand Viruses (pp. 3–11).

The Use of Reassortant Bunyaviruses to Deduce their Coding and Pathogenic Potentials

In Mechanisms of Viral Pathogenesis (pp. 49–60).

Bunyavirus Gene Structure‐Function Relationships and Potential for RNA Segment Reassortment In The Vector: La Crosse and Snowshoe Hare Reassortant Viruses In Mosquitoes

In C. H. Calisher & W. H. Thompson (Eds.), California serogroup viruses : proceedings of an International Symposium, held in Cleveland, Ohio, November 12 and 13, 1982 (pp. 119–128). New York: A.R. Liss.

Bunyavirus Nucleoprotein, N, and a Non-structural Protein, NSS, Are Coded by Overlapping Reading Frames in the S RNA

Journal of General Virology, 64(8), 1705–1714.

Bunyavirus gene structure-function relationships and potential for RNA segment reassortment in the vector: La Crosse and snowshoe hare reassortant viruses in mosquitoes

Progress in Clinical Biological Research, 123, 119–128.

Coding Assignments of the RNA Genome Segments of California Serogroup Viruses

In C. H. Calisher & W. H. Thompson (Eds.), California serogroup viruses : proceedings of an International Symposium, held in Cleveland, Ohio, November 12 and 13, 1982 (pp. 107–117). New York: A.R. Liss.

Coding assignments of the RNA genome segments of California serogroup viruses

Progress in Clinical Biological Research, 123, 107–117.

Interference between bunyaviruses in Aedes triseriatus mosquitoes

Virology, 127(1), 83–90.

Tick-borne viruses structurally similar to orthomyxoviruses

Virology, 127(1), 205–219.

Coding assignments of the RNA genome segments of California serogroup viruses

Progress in Clinical Biological Research, 123, 107–117.

Identification of viral coded non‐structural polypeptides in Bunyavirus infected cells

Journal of Virology, 41(2), 643–648.

Synthesis and processing of sindbis virus nonstructural proteins in vitro

Virology, 118(2), 363–379.

The 3' Terminal RNA Sequences of Bunyaviruses and Nairoviruses (Bunyaviridae): Evidence of End Sequence Generic Differences within the Virus Family

Journal of General Virology, 61(2), 289–292.

Interferon Induction by Viruses. IV. Sindbis Virus: Early Passage Defective-Interfering Particles Induce Interferon

Journal of General Virology, 48(1), 63–73.

Interferon Induction by Viruses. Sindbis Virus: Defective-interfering Particles Temperature-sensitive for Interferon Induction

Journal of General Virology, 48(2), 391–394.

Sindbis virus I. Gene order of translation in Vivo

Virology, 107(2), 441–451.

Cell surface-associated ribonuclease activities

Journal of Cellular Physiology, 98(1), 1–10.

Interferon Induction by Viruses. II. Sindbis Virus: Interferon Induction Requires One-Quarter of the Genome -- Genes G and A

Journal of General Virology, 44(1), 169–177.