Applications of Ene-Reductases in the Synthesis of Flavors and Fragrances.

Flavors and fragrances (F&F) are interesting organic compounds in chemistry. These compounds are widely used in the food, cosmetic, and medical industries. Enzymatic synthesis exhibits several advantages over natural extraction and chemical preparation, including a high yield, stable quality, mildness, and environmental friendliness. To date, many oxidoreductases and hydrolases have been used to biosynthesize F&F. Ene-reductases (ERs) are a class of biocatalysts that can catalyze the asymmetric reduction of α,ß-unsaturated compounds and offer superior specificity and selectivity; therefore, ERs have been increasingly considered an ideal alternative to their chemical counterparts. This review summarizes the research progress on the use of ERs in F&F synthesis over the past 20 years, including the achievements of various scholars, the differences and similarities among the findings, and the discussions of future research trends related to ERs. We hope this review can inspire researchers to promote the development of biotechnology in the F&F industry.

Theoretical Analysis of Selectivity Differences in Ketoreductases toward Aldehyde and Ketone Carbonyl Groups.

Lactobacillus kefir alcohol dehydrogenase (LkADH) and ketoreductase from Chryseobacterium sp. CA49 (ChKRED12) exhibit different chemoselectivity and stereoselectivity toward a substrate with both keto and aldehyde carbonyl groups. LkADH selectively reduces the keto carbonyl group while retaining the aldehyde carbonyl group, producing optically pure R-alcohols. In contrast, ChKRED12 selectively reduces the aldehyde group and exhibits low reactivity toward ketone carbonyls. This study investigated the structural basis for these differences and the role of specific residues in the active site. Molecular dynamics (MD) simulations and quantum chemical calculations were used to investigate the interactions between the substrate and the enzymes and the essential cause of this phenomenon. The present study has revealed that LkADH and ChKRED12 exhibit significant differences in the structure of their respective active pockets, which is a crucial determinant of their distinct chemoselectivity toward the same substrate. Moreover, residues N89, N113, and E144 within LkADH as well as Q151 and D190 within ChKRED12 have been identified as key contributors to substrate stabilization within the active pocket through electrostatic interactions and van der Waals forces, followed by hydride transfer utilizing the coenzyme NADPH. Furthermore, the enantioselectivity mechanism of LkADH has been elucidated using quantum chemical methods. Overall, these findings not only provide fundamental insights into the underlying reasons for the observed differences in selectivity but also offer a detailed mechanistic understanding of the catalytic reaction.

Chitosan derived efficient and stable Pd nano-catalyst for high efficiency hydrogenation.

The design and development of green and efficient supported catalysts is the frontier direction in the field of green synthesis, which conforms to the strategic concept of green sustainable chemistry and "carbon neutrality". Herein, we used a renewable resource chitosan (CS) derived from seafood wastes of chitin as carriers to design two different chitosan-supported palladium (Pd) nano-catalysts through different activation methods. The Pd particles were firmly and uniformly dispersed on the chitosan microspheres due to the interconnected nanoporous structure and functional groups of chitosan, proved by diverse characterizations. The chitosan supported catalysts (Pd@CS) was applied to hydrogenation of 4-nitrophenol, which showed competitive catalytic activity compared to commercial Pd/C, un-supported nano-Pd and Pd(OAc)2 catalysts, as well as excellent catalytic activity, good reusability, long-life and broad applicability in selective hydrogenation of aromatic aldehydes, suggesting potential of applications in green industrial catalysis.

Iridium-catalyzed chemoselective asymmetric hydrogenation of conjugated enones with ferrocene-based multidentate phosphine ligands.

A series of novel and readily prepared ferrocene-based multidentate phosphine ligands (f-PNNO) have been developed and successfully used in iridium-catalyzed enantioselective 1,2-reduction of α,ß-unsaturated ketones, delivering chiral allylic alcohols in high yields and high enantioselectivities (up to 99% yield and up to 99% ee). Furthermore, the gram scale reaction proceeded very smoothly with 0.001 mol% catalyst loading, which indicated that the newly developed Ir/f-PNNO catalytic system has excellent activity in asymmetric hydrogenation of conjugated enones.

Ir/f-Ampha complex catalyzed asymmetric sequential hydrogenation of enones: a general access to chiral alcohols with two contiguous chiral centers.

A general and highly efficient method for asymmetric sequential hydrogenation of α,ß-unsaturated ketones has been developed by using an iridium/f-Ampha complex as the catalyst, furnishing corresponding chiral alcohols with two contiguous stereocenters in high yields with excellent diastereo- and enantioselectivities (up to 99% yield, >20 : 1 dr and >99% ee). Control experiments indicated that the C[double bond, length as m-dash]C and C[double bond, length as m-dash]O bonds of the enones were hydrogenated sequentially, and the final stereoselectivities were determined by the dynamic kinetic resolution of ketones. Moreover, DFT calculations revealed that an outer sphere pathway was involved in both reduction of C[double bond, length as m-dash]C and C[double bond, length as m-dash]O bonds of enones. The synthetic utility of this method was demonstrated by a gram-scale reaction with very low catalyst loading (S/C = 20 000) and a concise synthetic route to key chiral intermediates of the antiasthmatic drug CP-199,330.

Chitin microsphere supported Pd nanoparticles as an efficient and recoverable catalyst for CO oxidation and Heck coupling reaction.

Chitin derived from seafood wastes is a sustainable biopolymer, which can be used to constructe new materials to reduce the environmental pollution caused by non-biodegradable plastics. Herein, nanofibrous microspheres fabricated from chitin solution were used as carriers to construct three different chitin-supported Pd catalysts through diverse activation methods, subsequently revealed their differences in structure and performance. The palladium nanoparticles were firmly and highly dispersed on the microspheres due to the interconnected nanofibrous networks and functional groups of chitin, confirmed by various physicochemical characterizations. As the best candidate catalyst of Pd/chitin-Ar, in the CO oxidation reaction, which achieved 100% CO conversion with a lower Pd content, and exhibited excellent stability in 24-hours cycle reaction. Importantly, the catalyst was further applied in Heck coupling reaction, which also displayed competitive catalytic activity and stability (∼6runs, 94%). This utilizing of biomass resource to build catalyst materials would be important for the sustainable chemistry.

Nickel-Catalyzed Asymmetric Addition of Aromatic Halides to Ketones: Highly Enantioselective Synthesis of Chiral 2,3-Dihydrobenzofurans Containing a Tertiary Alcohol.

A highly enantioselective and straightforward synthetic procedure to chiral 3-hydroxy-2,3-dihydrobenzofurans has been developed by nickel/bisoxazoline-catalyzed intramolecular asymmetric addition of aryl halides to unactivated ketones, giving 2,3-dihydrobenzofurans with a chiral tertiary alcohol at the C-3 position in good yields and excellent enantioselectivities (up to 92% yield and 98% ee). The gram-scale reaction also proceeded smoothly without a loss of yield and enantioselectivity.

[Rapid detection of three common deletional alpha thalassemias in Chinese by single-tube multiplex PCR].

OBJECTIVE: To develop a simple, rapid, accurate, and cost-effective single-0tube multiplex polymerase chain reaction (PCR) assay, which could be used for molecular screening and prenatal diagnosis, for detection of three commonest deletional alpha-thalassemias (-- (SEA), -alpha (3.7) and -alpha (4.2)) in Chinese population. METHODS: Four groups of primers were designed on the basis of gap-PCR, and the PCR reaction condition was optimized systematically with the purpose of amplifying effectively specific DNA fragments that are indicative of the respective genotypes of these three deletional alpha thalassemias. In addition, a pair of primers was designed to amplify LIS1 3' untranslated region (UTR) fragment for use as a separate control for amplification running. A total of 72 blood and prenatal archival DNA samples with various known alpha thalassemia genes or normal alpha globin gene sequence that had been confirmed by Southern blotting analysis or DNA sequencing were collected to test the specificity of this assay by blind analysis. In addition, DNA samples from nine couples at high risk of alpha thalassemia were also analyzed to evaluate the reliability of this technique in prenatal implementation. RESULTS: Homozygote, heterozygote and double heterozygote of the three commonest deletional alpha thalassemias were well detected simultaneously by this established method. For normal allele, a 2.4 kb amplified band as a systematic control and an alpha (2) gene-specific amplicon of 1.8 kb were produced. Besides the two amplified fragments of normal allele, it was found that a 1.3 kb, a 2.0 kb or a 1.6 kb amplified band could be simultaneously shown for representing --(SEA), -alpha (3.7) and -alpha (4.2) alleles, respectively, in the heterozygous states. In a blind test, this technique accurately detected 100% of the DNA samples previously characterized by Southern blotting or DNA sequencing, and it was successfully applied to prenatal diagnosis of alpha thalassemia in nine at-risk families. CONCLUSION: The single-tube multiplex PCR protocol presented in this study is easy-to-handle, rapid, reliable and is cost-effective for detecting --(SEA), -alpha (3.7) and -alpha (4.2) chromosomes, and it is suitable for large-scale population screening and for rapid molecular genotyping in clinics.

[Clinical phenotype genotype correlation in children with hemoglobin H disease in Zhuhai area of China].

OBJECTIVE: Alpha-thalassemia is one of the most common monogene disorders in the world. Most frequently, it is caused by deletions of alpha-globin gene (-alpha or --), and less commonly resulted from the non-deletional mutation (alpha(T)alpha). Hemoglobin H (HbH) disease is the most severe type among survivors of alpha-thalassemia. The clinical presentation of children with the disease was highly heterogeneous. The aim of this study was to investigate the effect of alpha-globin genotypes in the children with HbH disease on predicting the phenotypic severity and to define the factors involved in the disease progress. METHODS: Forty-three children with the disease in Zhuhai area of Guangdong, China were examined by using established techniques to detect genotypes of alpha-globin and to determine all hematological parameters. All detailed clinical data of the cases were recorded. Then clinical and hematological findings, and the correlation with genotypes were evaluated. RESULTS: Six alpha-thalassemia mutations were detected and interacted to produce 5 HbH disease genotypes. Of these genotypes, -alpha(3.7)/--(SEA)(60%), -alpha(4.2)/--(SEA) (19%) and alpha(CS)alpha/--(SEA) (12%) HbH diseases were prevalent in the area. Compared with -alpha(3.7)/--(SEA) HbH disease, significantly lower red blood cell (RBC) count, hemoglobin (Hb), mean corpuscular hemoglobin (MCHC) and HbA(2) (P < 0.05, 0.01, 0.01 and 0.01, respectively), and significantly higher mean corpuscular hemoglobin volume (MCV) and HbH levels (both P < 0.01), and more severe clinical phenotypes were found in the HbH disease with alpha(T)alpha/--(SEA) genotype. While the differences were much more significant when compared with -alpha(3.7)/--(SEA) then compared with -alpha(4.2)/--(SEA) not only in the hematological parameters, but also in the severity of clinical phenotypes. In addition, HbH levels showed anegatively correlation with the RBC count (r = -0.39, P < 0.01). CONCLUSION: The phenotypes of HbH disease may be mainly related to the underlying genotypes. The children with alpha(T)alpha/--(SEA) genotype presented with more severe hematological and clinical phenotypes followed by the -alpha(4.2)/--(SEA) and then -alpha(3.7)/--(SEA) genotypes. But phenotypic severity was not simply related to the degree of alpha-globin deficiency. HbH levels were found to exacerbate anemia. These data might provide comprehensive and very valuable and basic information for the management of HbH disease, genetic counseling and prenatal diagnosis.

Evaluation of clinical application of gap-PCR as a routine method for alpha-thalassemia carrier detection.

OBJECTIVE: To evaluate the feasibility of using gap-PCR for routine screening of alpha-thalassemia in clinical laboratory. METHODS: A total of 382 clinical blood samples randomly collected from the population of Zhuhai city were screened for alpha-thalassemia determinants with hematological and gap-PCR method respectively in a double-blind manner. Parallel analysis with Southern blotting was performed to verify the genotyping results by PCR. RESULTS: Of the 382 samples tested, 3 common alpha-thalassemia genes with genotypes of --(SEA)/alpha alpha, -alpha(3.7)/alpha alpha and -alpha(4.2)/alpha alpha were detected in 21 (5.50%), 7 (1.83%) and 3 (0.79%) cases respectively by gap-PCR, including 7 cases with normal phenotype and 3 case of iron-deficiency anemia. The overall incidence of alpha-thalassemia was 8.12% in the population of Zhuhai city, as determined by gap-PCR, in total agreement with the results by Southern blotting. Only 21 of the 31 alpha-thalassemia cases were identified by hematological analysis (besides 2 cases with alpha-thalassemia phenotype undetermined), which had a false-negative rate of 32.3%. Seven silent alpha-thalassemia and 3 mild alpha-thalassemia cases failed to be detected by hematological analysis, resulting in a rate of 2.62% for failure of detection. CONCLUSION: Gap-PCR method is specific and feasible as a better alternative for alpha-thalassemia screening, especially advantageous in detecting silent carriers in comparison with hematological method.

[Studies of relationship between infection of HPV, synergistic factors and cervical carcinoma].

The carcinogenesis of the human cervical precancerous lesion,cervical carcinoma is known closely associated with human papillomavirus (HPV). The purpose of this article is to identify whether HSV and CMV play as co-factor role in the carcinogenesis. Eighty-one cases of various cervical lesions were analyzed by HPV6/11, HPV16/18 in situ hybridization. Meanwhile, HPV, HSV and CMV were determined in 103 cases of various cervical lesions. The results show that the distribution of positive hybridization signal was consistent with the distribution of Koilocytic cells in HE stain. Of these cervical specimens investigated, the positive rates of HPV16/18 and HPV6/11 using ISH were 51% and 64%, respectively,the infection rates of HPV16/18, HPV6/11, HSV and CMV using PCR were 21%,4% 23% and 0%, respectively. The co-operation effect of HPV and HSV occurred in the oncogenesis of human cervical carcinoma, and moreover, the cellular and molecular biological mechanisms were discussed.