29. Kanzok SM, Fechner A, Bauer H, Ulschmid JK, Muller HM, Botella-Munoz J, Schneuwly S, Schirmer R, Becker K. Substitution of the thioredoxin system for glutathione reductase in Drosophila melanogaster. Science 291: 643-6, 2001.
30. Kurooka H, Kato K, Minoguchi S, Takahashi Y, Ikeda J, Habu S, Osawa N, Buchberg AM, Moriwaki K, Shisa H, Honjo T. Cloning and characterization of the nucleoredoxin gene that encodes a novel nuclear protein related to thioredoxin. Genomics 39: 331-9, 1997.
31. Laurent TC, Moore EC, Reichard P. Enzymatic Synthesis of Deoxyribonucleotides. Iv. Isolation and Characterization of Thioredoxin, the Hydrogen Donor from Escherichia Coli B. J Biol Chem 239: 3436-44, 1964.
32. Leu JH, Chang CC, Wu JL, Hsu CW, Hirono I, Aoki T, Juan HF, Lo CF, Kou GH, Huang HC. Comparative analysis of differentially expressed genes in normal and white spot syndrome virus infected Penaeus monodon. BMC Genomics 8, 2007.
33. Leu JH, Chang CC, Wu JL, Hsu CW, Hirono I, Aoki T, Juan HF, Lo CF, Kou GH, Huang HC. Comparative analysis of differentially expressed genes in normal and white spot syndrome virus infected Penaeus monodon. BMC Genomics 8:
120, 2007.
34. Leu JH, Tsai JM, Wang HC, Wang AH, Wang CH, Kou GH, Lo CF. The unique stacked rings in the nucleocapsid of the white spot syndrome virus virion are formed by the major structural protein VP664, the largest viral structural protein ever found. J Virol 79: 140-9, 2005.
35. Leu JH, Yang F, Zhang X, Xu X, Kou GH, Lo CF. Whispovirus. Curr Top Microbiol
Immunol 328: 197-227, 2009.
36. Levenson CW, Fitch CA. Effect of altered thyroid hormone status on rat brain
97
ferritin H and ferritin L mRNA during postnatal development. Brain Res Dev
Brain Res 119: 105-9, 2000.
37. Li F, Li M, Ke W, Ji Y, Bian X, Yan X. Identification of the immediate-early genes of white spot syndrome virus. Virology 385: 267-74, 2009.
38. Lin F, Huang H, Xu L, Li F, Yang F. Identification of three immediate-early genes of white spot syndrome virus. Arch Virol, 2011.
39. Lin ST, Chang YS, Wang HC, Tzeng HF, Chang ZF, Lin JY, Wang CH, Lo CF, Kou GH.
Ribonucleotide reductase of shrimp white spot syndrome virus (WSSV):
expression and enzymatic activity in a baculovirus/insect cell system and WSSV-infected shrimp. Virology 304: 282-90, 2002.
40. Liu WJ, Chang YS, Huang WT, Chen IT, Wang KC, Kou GH, Lo CF. Penaeus monodon TATA Box-Binding Protein Interacts with the White Spot Syndrome Virus Transactivator IE1 and Promotes Its Transcriptional Activity. J Virol 85:
6535-47, 2011.
41. Liu WJ, Chang YS, Huang WT, Chen IT, Wang KCHC, Kou GH, Lo CF. Penaeus monodon TATA Box-Binding Protein Interacts with the White Spot Syndrome Virus Transactivator IE1 and Promotes Its Transcriptional Activity. Journal of
Virology 85: 6535-6547, 2011.
42. Liu WJ, Chang YS, Wang AH, Kou GH, Lo CF. WSSV has Successfully Annexed a Shrimp STAT To Enhance the Expression of the Immediate Early Gene (ie1). J
Virol, 2006.
43. Liu WJ, Chang YS, Wang AH, Kou GH, Lo CF. White spot syndrome virus annexes a shrimp STAT to enhance expression of the immediate-early gene ie1. J Virol 81: 1461-71, 2007.
44. Liu WJ, Chang YS, Wang CH, Kou GH, Lo CF. Microarray and RT-PCR screening for white spot syndrome virus immediate-early genes in cycloheximide-treated shrimp. Virology 334: 327-41, 2005.
45. Liu WJ, Chang YS, Wang HC, Leu JH, Kou GH, Lo CF. Transactivation, Dimerization, and DNA-Binding Activity of White Spot Syndrome Virus Immediate-Early Protein IE1. Journal of Virology 82: 11362-11373, 2008.
46. Liu WJ, Chang YS, Wang HC, Leu JH, Kou GH, Lo CF. Transactivation, dimerization, and DNA-binding activity of white spot syndrome virus immediate-early protein IE1. J Virol 82: 11362-73, 2008.
47. Livak KJ, Schmittgen TD. Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method. Methods 25:
402-8, 2001.
48. Mai WJ, Wang WN. Protection of blue shrimp (Litopenaeus stylirostris) against the White Spot Syndrome Virus (WSSV) when injected with shrimp
98
lysozyme. Fish Shellfish Immunol 28: 727-33, 2010.
49. Makino Y, Yoshikawa N, Okamoto K, Hirota K, Yodoi J, Makino I, Tanaka H.
Direct association with thioredoxin allows redox regulation of glucocorticoid receptor function. J Biol Chem 274: 3182-8, 1999.
50. Masutani H, Hirota K, Sasada T, Ueda-Taniguchi Y, Taniguchi Y, Sono H, Yodoi J.
Transactivation of an inducible anti-oxidative stress protein, human thioredoxin by HTLV-I Tax. Immunol Lett 54: 67-71, 1996.
51. Masutani H, Naito M, Takahashi K, Hattori T, Koito A, Takatsuki K, Go T, Nakamura H, Fujii S, Yoshida Y, et al. Dysregulation of adult T-cell leukemia-derived factor (ADF)/thioredoxin in HIV infection: loss of ADF high-producer cells in lymphoid tissues of AIDS patients. AIDS Res Hum
Retroviruses 8: 1707-15, 1992.
52. Matthews JR, Wakasugi N, Virelizier JL, Yodoi J, Hay RT. Thioredoxin regulates the DNA binding activity of NF-kappa B by reduction of a disulphide bond involving cysteine 62. Nucleic Acids Res 20: 3821-30, 1992.
53. Munro HN, Linder MC. Ferritin: structure, biosynthesis, and role in iron metabolism. Physiol Rev 58: 317-96, 1978.
54. Nakamura H, De Rosa S, Roederer M, Anderson MT, Dubs JG, Yodoi J, Holmgren A, Herzenberg LA. Elevation of plasma thioredoxin levels in HIV-infected individuals. Int Immunol 8: 603-11, 1996.
55. Nilsson O, Tapia O, van Gunsteren WF. Structure and fluctuations of bacteriophage T4 glutaredoxin modelled by molecular dynamics. Biochem
Biophys Res Commun 171: 581-8, 1990.
56. Rahman I, MacNee W. Regulation of redox glutathione levels and gene transcription in lung inflammation: therapeutic approaches. Free Radic Biol
Med 28: 1405-20, 2000.
57. Ren Q, Zhang RR, Zhao XF, Wang JX. A thioredoxin response to the WSSV challenge on the Chinese white shrimp, Fenneropenaeus chinensis. Comp
Biochem Physiol C Toxicol Pharmacol 151: 92-8, 2010.
58. Ruan YH, Kuo CM, Lo CF, Lee MH, Lian JL, Hsieh SL. Ferritin administration effectively enhances immunity, physiological responses, and survival of Pacific white shrimp (Litopenaeus vannamei) challenged with white spot syndrome virus. Fish & Shellfish Immunology 28: 542-548, 2010.
59. Sasada T, Nakamura H, Masutani H, Ueda S, Sono H, Takabayashi A, Yodoi J.
Thioredoxin-mediated redox control of human T cell lymphotropic virus type I (HTLV-I) gene expression. Mol Immunol 38: 723-32, 2002.
60. Sengupta R, Holmgren A. Thioredoxin and thioredoxin reductase in relation to reversible S-nitrosylation. Antioxid Redox Signal, 2012.
99
61. Sono H, Teshigawara K, Sasada T, Takagi Y, Nishiyama A, Ohkubo Y, Maeda Y, Tatsumi E, Kanamaru A, Yodoi J. Redox control of Epstein-Barr virus replication by human thioredoxin/ATL-derived factor: differential regulation of lytic and latent infection. Antioxid Redox Signal 1: 155-65, 1999.
62. Spector A, Yan GZ, Huang RR, McDermott MJ, Gascoyne PR, Pigiet V. The effect of H2O2 upon thioredoxin-enriched lens epithelial cells. J Biol Chem 263: 4984-90, 1988.
63. Sumida Y, Nakashima T, Yoh T, Nakajima Y, Ishikawa H, Mitsuyoshi H, Sakamoto Y, Okanoue T, Kashima K, Nakamura H, Yodoi J. Serum thioredoxin levels as an indicator of oxidative stress in patients with hepatitis C virus infection. J Hepatol 33: 616-22, 2000.
64. Tagaya Y, Maeda Y, Mitsui A, Kondo N, Matsui H, Hamuro J, Brown N, Arai K, Yokota T, Wakasugi H, et al. ATL-derived factor (ADF), an IL-2 receptor/Tac inducer homologous to thioredoxin; possible involvement of dithiol-reduction in the IL-2 receptor induction. EMBO J 8: 757-64, 1989.
65. Tassanakajon A, Klinbunga S, Paunglarp N, Rimphanitchayakit V, Udomkit A, Jitrapakdee S, Sritunyalucksana K, Phongdara A, Pongsomboon S, Supungul P, Tang S, Kuphanumart K, Pichyangkura R, Lursinsap C. Penaeus monodon gene discovery project: the generation of an EST collection and establishment of a database. Gene 384: 104-12, 2006.
66. Tsai JM, Wang HC, Leu JH, Hsiao HH, Wang AH, Kou GH, Lo CF. Genomic and proteomic analysis of thirty-nine structural proteins of shrimp white spot syndrome virus. J Virol 78: 11360-70, 2004.
67. Tsai JM, Wang HC, Leu JH, Wang AH, Zhuang Y, Walker PJ, Kou GH, Lo CF.
Identification of the nucleocapsid, tegument, and envelope proteins of the shrimp white spot syndrome virus virion. J Virol 80: 3021-9, 2006.
68. Tsai MF, Lo CF, van Hulten MC, Tzeng HF, Chou CM, Huang CJ, Wang CH, Lin JY, Vlak JM, Kou GH. Transcriptional analysis of the ribonucleotide reductase genes of shrimp white spot syndrome virus. Virology 277: 92-9, 2000.
69. Tsai MF, Yu HT, Tzeng HF, Leu JH, Chou CM, Huang CJ, Wang CH, Lin JY, Kou GH, Lo CF. Identification and characterization of a shrimp white spot syndrome virus (WSSV) gene that encodes a novel chimeric polypeptide of cellular-type thymidine kinase and thymidylate kinase. Virology 277: 100-10, 2000.
70. Tzeng HF, Chang ZF, Peng SE, Wang CH, Lin JY, Kou GH, Lo CF. Chimeric polypeptide of thymidine kinase and thymidylate kinase of shrimp white spot syndrome virus: thymidine kinase activity of the recombinant protein expressed in a baculovirus/insect cell system. Virology 299: 248-55, 2002.
71. Ueno M, Masutani H, Arai RJ, Yamauchi A, Hirota K, Sakai T, Inamoto T,
100
Yamaoka Y, Yodoi J, Nikaido T. Thioredoxin-dependent redox regulation of p53-mediated p21 activation. J Biol Chem 274: 35809-15, 1999.
72. VanLandingham JW, Levenson CW. Effect of retinoic acid on ferritin H expression during brain development and neuronal differentiation. Nutr
Neurosci 6: 39-45, 2003.
73. Vivancos AP, Castillo EA, Biteau B, Nicot C, Ayte J, Toledano MB, Hidalgo E. A cysteine-sulfinic acid in peroxiredoxin regulates H2O2-sensing by the antioxidant Pap1 pathway. Proc Natl Acad Sci U S A 102: 8875-80, 2005.
74. Wang KC, Kondo H, Hirono I, Aoki T. The Marsupenaeus japonicus voltage-dependent anion channel (MjVDAC) protein is involved in white spot syndrome virus (WSSV) pathogenesis. Fish Shellfish Immunol 29: 94-103, 2010.
75. Wang X, Ling S, Zhao D, Sun Q, Li Q, Wu F, Nie J, Qu L, Wang B, Shen X, Bai Y, Li Y. Redox Regulation of Actin by Thioredoxin-1 Is Mediated by the Interaction of the Proteins via Cysteine 62. Antioxid Redox Signal, 2010.
76. Wang Z, Chua HK, Gusti AA, He F, Fenner B, Manopo I, Wang H, Kwang J.
RING-H2 protein WSSV249 from white spot syndrome virus sequesters a shrimp ubiquitin-conjugating enzyme, PvUbc, for viral pathogenesis. J Virol 79:
8764-72, 2005.
77. Watson WH, Pohl J, Montfort WR, Stuchlik O, Reed MS, Powis G, Jones DP.
Redox potential of human thioredoxin 1 and identification of a second dithiol/disulfide motif. J Biol Chem 278: 33408-15, 2003.
78. Weichsel A, Gasdaska JR, Powis G, Montfort WR. Crystal structures of reduced, oxidized, and mutated human thioredoxins: evidence for a regulatory homodimer. Structure 4: 735-51, 1996.
79. White CL, Weisberg AS, Moss B. A glutaredoxin, encoded by the G4L gene of vaccinia virus, is essential for virion morphogenesis. J Virol 74: 9175-83, 2000.
80. Yeh SP, Chen YN, Hsieh SL, Cheng WT, Liu CH. Immune response of white shrimp, Litopenaeus vannamei, after a concurrent infection with white spot syndrome virus and infectious hypodermal and hematopoietic necrosis virus.