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NTIS 바로가기大韓化粧品學會誌 = Journal of the society of cosmetic scientists of Korea, v.48 no.2, 2022년, pp.169 - 180
박혜림 (현대바이오랜드 생명과학연구소) , 김하연 (현대바이오랜드 생명과학연구소) , 김진영 (현대바이오랜드 생명과학연구소) , 오신석 (한국교통대학교 응용화학에너지공학부) , 강필선 (한국교통대학교 응용화학에너지공학부) , 이강혁 (현대바이오랜드 생명과학연구소) , 임정혁 (한국교통대학교 응용화학에너지공학부) , 신송석 (현대바이오랜드 생명과학연구소)
Streptococcus sp. is generally known as a strain that produces hyaluronic acid. In this study, we focused on ingredients other than hyaluronic acid among several metabolites produced by Streptococcus sp. during cultivation. The hair experimental sample (HAIRCLETM) was prepared with Streptococcus sp....
F. Cheng, Q. Gong, H. Yu, and G. Stephanopoulos, High-titer biosynthesis of hyaluronic acid by recombinant Corynebacterium glutamicum, Biotechnol. J., 11(4), 574 (2016).
S. B. Prasad, G. Jayaraman, and K. B Ramachandran. Hyaluronic acid production is enhanced by the additional co-expression of UDP-glucose pyrophosphorylase in Lactococcus lactis, Appl. Microbiol. Biotechnol., 86(1), 273 (2010).
N. Izawa, M. Serata, T. Sone, T. Omasa, and H. Ohtake. Hyaluronic acid production by recombinant Streptococcus thermophilus. J. Biosci. Bioeng., 111(6), 665 (2011).
Z. Mao, H. D. Shin, and R. Chen. A recombinant E. coli bioprocess for hyaluronan synthesis, Appl. Microbiol. Biotechnol, 84(1), 63 (2009).
G. E. Rogers, Known and unknown features of hair cuticle structure: A brief review, Cosmetics, 6, 32 (2019).
J. A. Swift and J. R. Smith, Microscopical investigations on the epicuticle ofmammalian keratin fibres, Microsc. Microanal., 204(3), 203 (2001).
K. S. Stenn and R. Paus, Controls of hair follicle cycling, Am J Physiol, 81(1), 499 (2001).
S. S. Rho, S. J. Park, S. L. Hwang, M. H. Lee, C. D. Kim, I. H. Lee, S. Y Chang, and M. J. Rang, The hair growth promoting effect of Asiasari radix extract and its molecular regulation, J. Dermatol. Sci., 38(2), 89 (2005).
J. M. Wang and J.T. Zhang, Progress in relevant growth factors promoting the growth of hair follicle, Am J Anim Vet Sci, 7(2), 104 (2012).
A. P Laddha and Y. A Kulkarni, VEGF and FGF-2: Promising targets for the treatment of respiratory disorders, Respir Med, 156, 33 (2019).
Y.R Lee, M. Yamazaki, S. Mitsui, R. Tsuboi, and H. Ogawa, Hepatocyte growth factor (HGF) activator expressed in hair follicles is involved in in vitro HGF-dependent hair follicle elongation, J. Dermatol. Sci., 25(2), 156 (2001).
K. Yano, L. F. Brown, and M. Detmar, Control of hair growth and follicle size by VEGF-mediated angiogenesis, J. Clin. Investig., 107(4), 409 (2001).
N. Weger and T. Schlake, IGF-I signalling controls the hair growth cycle and the differentiation of hair shafts, J Invest Dermatol., 125(5), 873 (2005).
H. Y. Su, J. G. Hickford, R. Bickerstaffe, and B. R. Palmer, Insulin-like growth factor 1 and hair growth, Dermatol Online J, 5(2), 1 (1999).
Y. H. Li, K. Zhng, J. X. Ye, X. H. Lian, and T. Yang, Wnt10b promotes growth of hair follicles vi a canonical Wnt signaling pathway, Clin. Exp. Dermatol, 36(5), 534 (2011).
L. Zhou, H. Wang, J. Jing, L. Yu, X. Wu and Z. Lu, Morroniside regulates hair growth and cycle transition via activation of the Wnt/β-catenin signaling pathway. Sci Rep., 8(1), 13785 (2018).
Y. Ouji, M. Yoshikawa, K. Moriya, M. Nishiofuk, R. Matsuda, and S. Ishizaka, Wnt-10b, uniquely among Wnts, promotes epithelial differentiation and shaft growth, Biochem. Biophys. Res. Commun, 367(2), 299 (2008).
K. S. Stenn and R. Paus, Controls of hair follicle cycling, Physiol Rev, 81(1), 449 (2001).
R. Paus, S. Muller-Rover, and V. A. Botchkarev, Chronobiology of the hair follicle: hunting the "hair cycle clock", J Investig Dermatol Symp Proc, 4(3), 338 (2004).
J. Zhao, N. Harada, and K. Okajima, Dihydrotestosterone inhibits hair growth in mice by inhibiting insulin-like growth factor-I production in dermal papillae, Growth Horm IGF Res, 21(5), 260 (2011).
M. Osada, L. Jardine, R. Misir, T. Andl, S. E. Milla, and M. Pezzano, DKK mediated inhibition of Wnt signaling in postnaltal mice leads to loss of TEC progenitors and thymic degerneration, PLoS ONE, 5(2), e9062 (2010).
T. Hibino and T. Nishiyama, Role of TGF-b2 in the human hair cycle, J. Dermatol. Sci. 35(1), 9 (2004).
V. H. Price, Androgenetic alopecia in women, J. Investig. Dermatol. Symp. Proc., 8(1), 24 (2003).
U. C. Izabela, L. K. Malgorzata, and B.D. Grazyna, Assessment of the usefulness of dihydrotestosterone in the diagnostics of patients with androgenetic alopecia, Postepy Dermatol Alergol, 31(4), 207 (2014).
M. H. Kwack, Y. K. Sung, E. J. Chung, S. U. Im, J. S. Ahn, M. K. Kim, and J. C. Kim, Dihydrotestosteroneinducible Dickkopf 1 from balding dermal papilla cells causes apoptosis in follicular keratinocytes, J Invest Dermatol,, 128(2), 262 (2008).
J. A. Swift and J. R. Smith, Atomic force microscopy of human hair, Scanning, 22, 310 (2000).
R. M. Trueb, Oxidative stress and its impact on skin, scalp and hair, Int J Cosmet Sci, 43(Supply 1), 9 (2021).
M. Furuse, A. Kubo and S. Tsukita, Clauin-based tight junctions are crucial for the mammalian epidermal barrier: A lesson from claudin-1-deficient mice, J cell Biol, 156(6), 1099 (2002).
R. S. English, A hypothetical pathogenesis model for androgenic alopecia: clarifying the dihydrotestosterone paradox and rate-limiting recovery factors, Med Hypotheses, 111, 73 (2018).
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