Nikhil U. Nair scite author profile

Advances in theory and algorithms for electronic structure calculations must be incorporated into program packages to enable them to become routinely used by the broader chemical community. This work reviews advances made over the past five years or so that constitute the major improvements contained in a new release of the Q-Chem quantum chemistry package, together with illustrative timings and applications. Specific developments discussed include fast methods for density functional theory calculations, linear scaling evaluation of energies, NMR chemical shifts and electric properties, fast auxiliary basis function methods for correlated energies and gradients, equation-of-motion coupled cluster methods for ground and excited states, geminal wavefunctions, embedding methods and techniques for exploring potential energy surfaces.

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Q-Chem 2.0: a high-performanceab initio electronic structure program package

Kong¹,

White²,

Krylov³

et al. 2000

J. Comput. Chem.

617

329

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Q-Chem 2.0 is a new release of an electronic structure program package, capable of performing first principles calculations on the ground and excited states of molecules using both density functional theory and wave function-based methods. A review of the technical features contained within Q-Chem 2.0 is presented. This article contains brief descriptive discussions of the key physical features of all new algorithms and theoretical models, together with sample calculations that illustrate their performance.

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Design and construction of acetyl-CoA overproducing Saccharomyces cerevisiae strains

Lian

Nair

et al. 2014

Metabolic Engineering

215

190

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Cloning and characterization of a panel of constitutive promoters for applications in pathway engineering in Saccharomyces cerevisiae

Sun¹,

Shao²,

Zhao³

et al. 2012

Biotech & Bioengineering

169

131

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Saccharomyces cerevisiae is an important platform organism for synthesis of chemicals and fuels. However, the promoters used in most pathway engineering studies in S. cerevisiae have not been characterized and compared in parallel under multiple conditions that are routinely operated in laboratory and the number of known promoters is rather limited for the construction of large biochemical pathways. Here a total of 14 constitutive promoters from S. cerevisiae were cloned and characterized using a green fluorescent protein (GFP) as a reporter in a 2 µ vector pRS426, under varying glucose and oxygen concentrations. The strengths of these promoters varied no more than sixfold in the mean fluorescence intensity of GFP, with promoter TEF1p being the strongest and promoter PGI1p the weakest. As an example of application for these promoters in metabolic engineering, the genes involved in xylan degradation and zeaxanthin biosynthesis were subsequently cloned under the control of promoters with medium to high strength and assembled into a single pathway. The corresponding construct was transformed to a S. cerevisiae strain integrated with a D-xylose utilizing pathway. The resulting strain produced zeaxanthin with a titer of 0.74 ± 0.02 mg/L directly from birchwood xylan.

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Nikhil U. Nair

Advances in methods and algorithms in a modern quantum chemistry program package

Q-Chem 2.0: a high-performanceab initio electronic structure program package

Design and construction of acetyl-CoA overproducing Saccharomyces cerevisiae strains

Cloning and characterization of a panel of constitutive promoters for applications in pathway engineering in Saccharomyces cerevisiae

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