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The repressor gene (c) of the Streptomyces temperate phage ϕc31: Nucleotide sequence, analysis and functional cloning (1988)

Sinclair, Robert B. ; Bibb, Mervyn J.

Springer

Molecular genetics and genomics 213 (1988), S. 269-277

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ISSN: 1617-4623

Keywords: Recombinant DNA ; Helix-turn-helix motifs ; In vitro transcription-translation ; Phage immunity ; Exonuclease III deletions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The nucleotide sequence of the 3.4 kb SphI-G fragment that contained the repressor gene (c) of the temperate Streptomyces phage ϕc31 was determined. Analysis of this sequence revealed a large open reading frame with protein coding character and sequence changes in c gene point and deletion mutants identified this as the coding region of the repressor. Two of the mutants studied had undergone deletions of 1.1 kb and 1.4 kb that had occurred across short direct repeats of 6 bp and 11 bp, respectively. Coupled in vitro transcription-translation experiments using the cloned SphI-G fragment and Streptomyces lividans cell free extracts identified a protein product of approximately 72 kDa, in close agreement with that predicted from the nucleotide sequence. A strongly predicted helix-turn-helix motif that may be involved in DNA binding occurred towards the carboxy-terminus of the amino acid sequence. Initial attempts to clone the SphI-G fragment in Streptomyces failed; using information gained from the sequence analysis a smaller segment of this DNA fragment was cloned in S. lividans and conferred immunity to a clear plaque mutant (c1) of ϕc31.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00339591

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Paper (German National Licenses)

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Pack Density Limitations of Hybrid Parachutes (2013)

Sinclair, Robert J. ; Zwicker, Matthew L.

In: CASI

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Publication Date: 2019-07-13

Description: The development and testing of the Orion crew capsule parachute system has provided a unique opportunity to study dense parachute packing techniques and limits, in order to establish a new baseline for future programs. The density of parachute packs has a significant influence on vibration loads, retention system stresses, and parachute mortar performance. Material compositions and pack densities of existing designs for space capsule recovery were compared, using the pack density of the Apollo main parachutes as the current baseline. The composition of parachutes has changed since Apollo, incorporating new materials such as Kevlar , Vectran , Teflon and Spectra . These materials have different specific densities than Nylon, so the densities of hybrid parachute packs cannot be directly compared to Nylon parachutes for determination of feasibility or volume allocation. Six parachute packs were evaluated in terms of weighted average solid density in order to achieve a non-dimensional comparison of packing density. Means of mitigating damage due to packing pressure and mortar firing were examined in light of the Capsule Parachute Assembly System (CPAS) and Apollo experience. Parachute design improvements including incorporation of modern materials and manufacturing processes serves to make CPAS the new knowledge base on which future spacecraft parachute systems will be built.

Keywords: Spacecraft Design, Testing and Performance

Type: JSC-CN-28242 , AIAA Aerodynamic Decelerator Systems Technology; Mar 25, 2013 - Mar 28, 2013; Daytona Beach, FL; United States

Format: application/pdf

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NASA TECHNICAL REPORTS

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A Status Report on the Parachute Development for NASA's Next Manned Spacecraft (2008)

Sinclair, Robert

In: CASI

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Publication Date: 2019-07-13

Description: NASA has determined that the parachute portion of the Landing System for the Crew Exploration Vehicle (CEV) will be Government Furnished Equipment (GFE). The Earth Landing System has been designated CEV Parachute Assembly System (CPAS). Thus a program team was developed consisting of NASA Johnson Space Center (JSC) and Jacobs Engineering through their Engineering and Science Contract Group (ESCG). Following a rigorous competitive phase, Airborne Systems North America was selected to provide the parachute design, testing and manufacturing role to support this team. The development program has begun with some early flight testing of a Generation 1 parachute system. Future testing will continue to refine the design and complete a qualification phase prior to manned flight of the spacecraft. The program team will also support early spacecraft system testing, including a Pad Abort Flight Test in the Fall of 2008

Keywords: Spacecraft Design, Testing and Performance

Type: Safety and Flight Equipment Symposium (SAFE); Mar 31, 2008 - Apr 02, 2008; Geneva; Switzerland

Format: application/pdf

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Development and Testing of the Orion CEV Parachute Assembly System (CPAS) (2009)

Johnson, Justin ; Lichodziejewski, David ; Olmstead, Randy ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: The Crew Exploration Vehicle (CEV) is an element of the Constellation Program that includes launch vehicles, spacecraft, and ground systems needed to embark on a robust space exploration program. As an anchoring capability of the Constellation Program, the CEV shall be human-rated and will carry human crews and cargo from Earth into space and back again. Coupled with transfer stages, landing vehicles, and surface exploration systems, the CEV will serve as an essential component of the architecture that supports human voyages to the Moon and beyond. In addition, the CEV will be modified, as required, to support International Space Station (ISS) mission requirements for crewed and pressurized cargo configurations. Headed by Johnson Space Center (JSC), NASA selected Jacobs Engineering as the support contractor to manage the overall CEV Parachute Assembly System (CPAS) program development. Airborne Systems was chosen to develop the parachute system components. General Dynamics Ordnance and Tactical Systems (GD-OTS) was subcontracted to Airborne Systems to provide the mortar systems. Thus the CPAS development team of JSC, Jacobs, Airborne Systems and GD-OTS was formed. The CPAS team has completed the first phase, or Generation I, of the design, fabrication, and test plan. This paper presents an overview of the CPAS program including system requirements and the development of the second phase, known as the Engineering Development Unit (EDU) architecture. We also present top level results of the tests completed to date. A significant number of ground and flight tests have been completed since the last CPAS presentation at the 2007 AIAA ADS Conference.

Keywords: Spacecraft Design, Testing and Performance

Type: JSC-18137

Format: application/pdf

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