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TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS.

Nico Mertens (UGent) , Erik Remaut (UGent) and Walter Fiers
(1995) BIO-TECHNOLOGY. 13(2). p.175-179
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MLA
Mertens, Nico, Erik Remaut, and Walter Fiers. “TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS.” BIO-TECHNOLOGY 13.2 (1995): 175–179. Print.
APA
Mertens, N., Remaut, E., & Fiers, W. (1995). TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS. BIO-TECHNOLOGY, 13(2), 175–179.
Chicago author-date
Mertens, Nico, Erik Remaut, and Walter Fiers. 1995. “TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS.” Bio-technology 13 (2): 175–179.
Chicago author-date (all authors)
Mertens, Nico, Erik Remaut, and Walter Fiers. 1995. “TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS.” Bio-technology 13 (2): 175–179.
Vancouver
1.
Mertens N, Remaut E, Fiers W. TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS. BIO-TECHNOLOGY. 1995;13(2):175–9.
IEEE
[1]
N. Mertens, E. Remaut, and W. Fiers, “TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS.,” BIO-TECHNOLOGY, vol. 13, no. 2, pp. 175–179, 1995.
@article{192044,
  author       = {Mertens, Nico and Remaut, Erik and Fiers, Walter},
  issn         = {0733-222X},
  journal      = {BIO-TECHNOLOGY},
  language     = {eng},
  number       = {2},
  pages        = {175--179},
  title        = {TIGHT TRANSCRIPTIONAL CONTROL MECHANISM ENSURES STABLE HIGH-LEVEL EXPRESSION FROM T7 PROMOTER-BASED EXPRESSION PLASMIDS.},
  volume       = {13},
  year         = {1995},
}