Kimberly Greer

 Kimberly Greer

Kimberly Greer

  • Courses1
  • Reviews5

Biography

Prairie View A&M University - Biology

Medical Writer at Castle Biosciences, Inc.
Kimberly A
Greer, PhD, MS
Houston, Texas Area
I am an entrepreneurial-minded PhD who utilizes my investigative, management, and communication skills to efficiently move projects forward. I thrive in an interactive, collaborative team environment. This encourages my capacity for creative problem solving with cooperative solutions.

Industry trained and experienced in multi-project management, I have exquisite attention to detail. My technical optimization skills save time and significantly decrease operating budgets as evidenced by reducing one laboratory’s yearly operating budget by $30K.

I am an articulate and flexible communicator, invited to >55 speaking appointments, internationally and nationally. I have produced >29 peer-reviewed publications and invited book chapters together with >15 community interest writings. Clarity predominates my writing as demonstrated through grant awards. I received the 2nd highest external funding dollars earned for my current University. I effectively adapt materials for variable audiences as reflected by >10 standing editorial invitations. Medical, technical, and compliance reporting opportunities are welcome!

I am currently seeking new opportunities, with expertise in genetics, gerontology, neurobiology, and oncology, relevant to Scientific Writing, Medical Writing/Editing positions. Let’s connect!
KimberlyAGreerPhD@gmail.com; 1+979-229-1781





Experience

    Education

    • Texas A&M University

      Doctor of Philosophy (Ph.D.)

      Genetics
      Designed an in vitro system of intracellular oxidative stress production in MCF7 breast cancer cells

    • Texas A&M University

      Bachelor of Science (B.S.)

      Genetics
      Identified population genetic differences in folate pathways for FDA approval of folic acid supplementatoin

    • Texas A&M University

      Master of Science (M.S.)

      Genetics
      Identified, isolated, and characterized the Reduced Folate Carrier gene yielding RFC- transgenic mice

    Publications

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Digging up the canine genome – a tale to wag about.

      Cytogenet Genome Res 102(1-4): 244-48.

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Digging up the canine genome – a tale to wag about.

      Cytogenet Genome Res 102(1-4): 244-48.

    • Comparison of Reactive Oxygen Scavenging Systems between a Cetacean (DKN1) and a Porcine REnal Epithelian Cell Line (LLC-PK1)

      Comparative Biochem Physiol A Mol Integr Physiol 147(2): 550-55

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Digging up the canine genome – a tale to wag about.

      Cytogenet Genome Res 102(1-4): 244-48.

    • Comparison of Reactive Oxygen Scavenging Systems between a Cetacean (DKN1) and a Porcine REnal Epithelian Cell Line (LLC-PK1)

      Comparative Biochem Physiol A Mol Integr Physiol 147(2): 550-55

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Digging up the canine genome – a tale to wag about.

      Cytogenet Genome Res 102(1-4): 244-48.

    • Comparison of Reactive Oxygen Scavenging Systems between a Cetacean (DKN1) and a Porcine REnal Epithelian Cell Line (LLC-PK1)

      Comparative Biochem Physiol A Mol Integr Physiol 147(2): 550-55

    • Dog leukocyte antigen class II-associated genetic risk testing for immune disorders of dogs: simplified approaches using Pug dog necrotizing meningoencephalitis as a model.

      J Vet Diagn Invest 23(1): 68-76

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Digging up the canine genome – a tale to wag about.

      Cytogenet Genome Res 102(1-4): 244-48.

    • Comparison of Reactive Oxygen Scavenging Systems between a Cetacean (DKN1) and a Porcine REnal Epithelian Cell Line (LLC-PK1)

      Comparative Biochem Physiol A Mol Integr Physiol 147(2): 550-55

    • Dog leukocyte antigen class II-associated genetic risk testing for immune disorders of dogs: simplified approaches using Pug dog necrotizing meningoencephalitis as a model.

      J Vet Diagn Invest 23(1): 68-76

    • The curious case of canine cataract: new insights into aging in dogs

      J Vet Behav 6(1): 99

    • Epidemiology of necrotizing meningoencephalitis in Pug Dogs.

      J Vet Intern Med 22(4): 961-68.

    • An in vitro model of excess intracellular reactive oxygen species.

      AGE 27(2): 97-105

    • Age-related cataract in dogs: a biomarker for life span and its relation to body size.

      AGE 33(3): 451-60

    • Mapping a chromosomal locus for valproic acid-induced exencephaly in mice.

      Mammalian Genome 15(5): 361-69

    • Statistical analysis regarding the effects of height and weight on lifespan of the domestic dog.

      Res Vet Sci 82(2): 208-14.

    • Necrotizing meningoencephalitis of Pug dogs associates with dog leukocyte antigen class II and resembles acute variant forms of multiple sclerosis.

      Tiss Ant 76(2): 110-8

    • Bioeffects of terahertz energy

      SPIE books, Ch. 2-3

    • Connecting serum IGF-1, size, and longevity in the domestic dog.

      AGE 33(3): 475-83

    • The canine as a natural model of aging

      Aging Science Chpt. 13

      Book chapter reviewing the Dog as a Model of Human aging, and all of the latest ways and forms to utilize this unique model.

    • Evaluation of brain tissue and/or cerebrospinal fluid with broadly reactive PCR for Ehrlichia, Anaplasma, Spotted Fever Group Rickettsia, Bartonella and Borrelia species in canine neurological diseases (109 cases).

      J Vet Intern Med 24(2):372-8.

    • Aging-associated loci in Canis familiaris.

      Growth, Development, and Aging 69(2): 101-13

    • Magnetic resonance imaging characteristics of necrotizing meningoencephalitis in pugs.

      J Vet Intern Med 23(3): 527-35.

    • Analysis of gene expression in brain tissue from Greyhounds with meningoencephalitis.

      Am J Vet Res 71(5):547-54.

    • Gene Expression Analysis in a Canine Model of X-linked Alport Syndrome.

      Mammalian Genome 17(9): 976-90

    • Digging up the canine genome – a tale to wag about.

      Cytogenet Genome Res 102(1-4): 244-48.

    • Comparison of Reactive Oxygen Scavenging Systems between a Cetacean (DKN1) and a Porcine REnal Epithelian Cell Line (LLC-PK1)

      Comparative Biochem Physiol A Mol Integr Physiol 147(2): 550-55

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    BIOL 1073

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