SCHEMA-Designed Variants of Human Arginase I and II Reveal Sequence Elements Important to Stability and Catalysis

Romero, Philip A.; Stone, Everett; Lamb, Candice; Chantranupong, Lynne; Krause, Andreas; Miklos, Aleksandr E.; Hughes, Randall A.; Fechtel, Blake; Ellington, Andrew D.; Arnold, Frances H.; Georgiou, George

doi:10.1021/sb300014t

Cited by 51 publications

(53 citation statements)

References 43 publications

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“…This suggests that each sequence/structural block behaves differently in different contexts. For certain soluble protein properties (e.g., thermostability), it has been shown that block contributions are additive, that is, context independent, and that chimera stability can be predicted using linear regression (28,29,49,50). Our data suggest that ChR localization and photocurrent properties, however, require a more complex model to account for the nonlinear dependence of function on block sequence.…”

Section: Resultsmentioning

confidence: 80%

“…These chimeras consist of nine blocks of one parent and a single block from one of the other two parents. An additional 103 sequences were designed to maximize mutual information (46) between chosen chimeras and the remainder of the chimeric library, using the rationale described by Romero et al (29). Seventeen of these sequences were designed with a constraint on the number of mutations from the nearest parent (<40 mutations).…”

Section: Resultsmentioning

confidence: 99%

“…SCHEMA has enabled successful recombination of parental sequences with as low as 34% identity (25), which is not possible using random DNA recombination methods such as DNA shuffling (26). SCHEMA recombination has been used to create a variety of functionally diverse soluble proteins (25,(27)(28)(29)(30), but it has not yet been applied to MP engineering. Our goals in this study were to (i) test whether structureguided recombination produces chimeric MPs that express and localize; (ii) measure the fraction of chimeric sequences in a SCHEMA library that express and localize; and (iii) assess the functional diversity of the MPs that successfully localize to the membrane.…”

Section: Significancementioning

confidence: 99%

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Structure-guided SCHEMA recombination generates diverse chimeric channelrhodopsins

Bedbrook

Rice

Yang

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Integral membrane proteins (MPs) are key engineering targets due to their critical roles in regulating cell function. In engineering MPs, it can be extremely challenging to retain membrane localization capability while changing other desired properties. We have used structure-guided SCHEMA recombination to create a large set of functionally diverse chimeras from three sequence-diverse channelrhodopsins (ChRs). We chose 218 ChR chimeras from two SCHEMA libraries and assayed them for expression and plasma membrane localization in human embryonic kidney cells. The majority of the chimeras express, with 89% of the tested chimeras outperforming the lowest-expressing parent; 12% of the tested chimeras express at even higher levels than any of the parents. A significant fraction (23%) also localize to the membrane better than the lowest-performing parent ChR. Most (93%) of these welllocalizing chimeras are also functional light-gated channels. Many chimeras have stronger light-activated inward currents than the three parents, and some have unique off-kinetics and spectral properties relative to the parents. An effective method for generating protein sequence and functional diversity, SCHEMA recombination can be used to gain insights into sequence-function relationships in MPs.membrane proteins | channelrhodopsin | structure-guided recombination | chimeragenesis

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Section: Resultsmentioning

confidence: 80%

Section: Resultsmentioning

confidence: 99%

Section: Significancementioning

confidence: 99%

See 1 more Smart Citation

Structure-guided SCHEMA recombination generates diverse chimeric channelrhodopsins

Bedbrook

Rice

Yang

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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“…This study provided greater understanding about the stability in the long term of the arginase 1. The arginase 1 deactivation in physiological conditions was better understood and its possible therapeutic use in the hyperargininemia patients [44].…”

Section: Diagnosismentioning

confidence: 99%

Untitled

2018

Int J Neurol Neurother

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Objectives: To demonstrate what are the main neurological dysfunctions within the hyperargininemia and other aspects of the disease in order to provide knowledgement and an update on the issue. Methods:We conducted a literature search on reliable databases (PubMed/MEDLINE, Scielo/LILACS and UptoDate) from 1960 to 2018. The selection considered the most relevant articles, including 49 papers and 1 book for this narrative literature review.Results: Each of the selected materials was studied aiming to the formation of a cohesive and clear article. The main topics were sequenced in: clinical manifestations, diagnosis, genetics, and treatment.Conclusions: Hyperargininemia is a rare and underdiagnosed disease, but it is benign due to unusual severe hyperammonemia. The main clinical signs are neurological, such as spasticity, ataxia, hyperreflexia, incoordination, paresis, bilateral Babinski sign, tremor and seizures. The initial suspicion occurs with retraction of the Achilles tendon and spasticity. The therapy focus into reducing plasma levels of arginine and maintain a normal ammonia plasmatic concentration.

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“…Nowadays, protein engineering by directed evolution has become a standard method to tailor enzyme properties in academia and industry (mainly for biocatalysis 8 purposes). Novel application fields in material science 9 and medical science [10][11][12] will likely lead to a further growth in directed evolution reports despite that the development time for improving enzymes by directed evolution are often still too long to be implemented as a standard operation in process development. Till today most directed evolution campaigns are performed in a traditional manner, in which usually random mutagenesis libraries are generated through epPCR with low mutations frequencies (1 to 3 mutations per 1000 bp) and screened (MTP format; often 1000-2000 variants) in order to obtained improved variants.…”

Section: Introductionmentioning

confidence: 99%

Directed evolution 2.0: improving and deciphering enzyme properties

2015

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Directed evolution has matured to a routinely applied algorithm to tailor enzyme properties to meet the demands in various applications. In order to free directed enzyme evolution from methodological restraints and to efficiently explore its potential, many different strategies have been used in directed evolution campaigns. Analysis of directed evolution campaigns reveals that traditional approaches, in which several iterative rounds of diversity generation and screening are performed, are gradually replaced by strategies which require less time, less screening efforts, and generate a molecular understanding of the targeted properties. In this review, conceptual advances in knowledge generating directed evolution strategies are summarized, compared to each other and to traditional directed evolution strategies. Finally, a 'KnowVolution' (knowledge gaining directed evolution) termed strategy is proposed.

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SCHEMA-Designed Variants of Human Arginase I and II Reveal Sequence Elements Important to Stability and Catalysis

Cited by 51 publications

References 43 publications

Structure-guided SCHEMA recombination generates diverse chimeric channelrhodopsins

Structure-guided SCHEMA recombination generates diverse chimeric channelrhodopsins

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Directed evolution 2.0: improving and deciphering enzyme properties

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