Impact of energy intake on the activities of daily living in patients with cervical spinal cord injury undergoing post-acute rehabilitation.

OBJECTIVE: To investigate the association between sufficient energy intake and improvement in activities of daily living (ADL) after hospitalization in patients with cervical spinal cord injury (CSCI) undergoing post-acute rehabilitation. DESIGN: Retrospective cohort study. SETTING: Post-acute care hospital from September 2013 to December 2020. PARTICIPANTS: Patients with CSCI admitted to a post-acute care hospital for rehabilitation. INTERVENTION: Not applicable. OUTCOME MEASURE(S): Multiple regression analysis was performed to investigate the relationship of sufficient energy intake to Motor Functional Independence Measure (mFIM) gain, mFIM score at discharge, and body weight change during hospitalization. RESULTS: In total, 116 patients (104 men and 12 women), median age: 55 (interquartile range [IQR] 41-65) years were included in the analysis. Then, 68 (58.6%) were in the energy-sufficient group, and 48 (41.4%) patients were classified under the energy-deficient group. The two groups did not significantly differ in terms of mFIM gain and mFIM score at discharge. The energy-sufficient group maintained body weight change during hospitalization than the energy-deficient group (0.6 [-2.0-2.0] vs. -1.9 [-4.0--0.3], P < 0.001). Multiple regression analysis showed no association between sufficient energy intake and outcomes. CONCLUSION: Sufficient energy intake within the first 3 days of admission did not affect ADL improvement during hospitalization in patients with a post-cute CSCI undergoing rehabilitation.

Corrigendum: Identification of novel canonical strigolactones produced by tomato.

[This corrects the article DOI: 10.3389/fpls.2022.1064378.].

Identification of 6-epi-heliolactone as a biosynthetic precursor of avenaol in Avena strigosa.

Strigolactones (SLs), which are known as rhizosphere signaling molecules and plant hormones regulating shoot architecture, are classified into 2 distinct groups, canonical and noncanonical SLs, based on their structures. Avenaol, a noncanonical SL found in the root exudates of black oat (Avena strigosa), has a characteristic bicyclo[4.1.0]heptane skeleton. Elucidating the biosynthetic mechanism of this peculiar structure is a challenge for further understanding of the structural diversification of noncanonical SLs. In this study, a novel noncanonical SL, 6-epi-heliolactone in black oat root exudates was identified. Feeding experiments showed that 6-epi-heliolactone was a biosynthetic intermediate between methyl carlactonoate and avenaol. Inhibitor experiments proposed the involvement of 2-oxoglutarate-dependent dioxygenase in converting 6-epi-heliolactone to avenaol. These results provide new insights into the stereochemistry diversity of noncanonical SLs and a basis to explore the biosynthetic pathway causing avenaol.

Identification of novel canonical strigolactones produced by tomato.

Canonical strigolactones (SLs), such as orobanchol, consist of a tricyclic lactone ring (ABC-ring) connected to a methylbutenolide (D-ring). Tomato plants have been reported to produce not only orobanchol but also various canonical SLs related to the orobanchol structure, including orobanchyl acetate, 7-hydroxyorobanchol isomers, 7-oxoorobanchol, and solanacol. In addition to these, structurally unidentified SL-like compounds known as didehydroorobanchol isomers (DDHs), whose molecular mass is 2 Da smaller than that of orobanchol, have been found. Although the SL biosynthetic pathway in tomato is partially characterized, structural elucidation of DDHs is required for a better understanding of the entire biosynthetic pathway. In this study, three novel canonical SLs with the same molecular mass as DDHs were identified in tomato root exudates. The first was 6,7-didehydroorobanchol, while the other two were not in the DDH category. These two SLs were designated phelipanchol and epiphelipanchol because they induced the germination of Phelipanche ramosa, a noxious root parasitic weed of tomato. We also proposed a putative biosynthetic pathway incorporating these novel SLs from orobanchol to solanacol.

Nutritional Assessment in Adult Patients with Dysphagia: A Scoping Review.

Malnutrition negatively affects the quality of life of patients with dysphagia. Despite the need for nutritional status assessment in patients with dysphagia, standard, effective nutritional assessments are not yet available, and the identification of optimal nutritional assessment items for patients with dysphagia is inadequate. We conducted a scoping review of the use of nutritional assessment items in adult patients with oropharyngeal and esophageal dysphagia. The MEDLINE, EMBASE, and Cochrane Central Register of Controlled Trials databases were searched to identify articles published in English within the last 30 years. Twenty-two studies met the inclusion criteria. Seven nutritional assessment categories were identified: body mass index (BMI), nutritional screening tool, anthropometric measurements, body composition, dietary assessment, blood biomarkers, and other. BMI and albumin were more commonly assessed in adults. The Global Leadership Initiative on Malnutrition (GLIM), defining new diagnostic criteria for malnutrition, includes the categories of BMI, nutritional screening tool, anthropometric measurements, body composition, and dietary assessment as its required components, but not the blood biomarkers and the "other" categories. We recommend assessing nutritional status, including GLIM criteria, in adult patients with dysphagia. This would standardize nutritional assessments in patients with dysphagia and allow future global comparisons of the prevalence and outcomes of malnutrition, as well as of appropriate interventions.

Biosynthesis of the widely distributed hydrocarbon (Z,Z)-6,9-heptadecadiene in astigmatid mites.

Using a crude enzyme solution prepared from astigmatid mites, the conversion reaction to (Z,Z)-6,9-heptadecadiene (6,9-C17) using linoleyl aldehyde (LAld) as a substrate was successful. The mass spectrum of the reaction product using 13C-labeled LAld as a substrate could be assigned as 13C-labeled 6,9-C17. Unlike the findings in other species, the decarbonylase derived from mites did not require a coenzyme.

Asymmetric Synthesis and Stereochemical Assignment of 12C/13C Isotopomers.

A synthesis of chiral hydrocarbons having C1 axis and C3 symmetry, which owe their chirality due to asymmetrical distribution of 12C/13C isotopes, is reported. Their absolute configurations assigned using the vibrational circular dichroism technique conform with those deduced from the absolute configurations of the parent α-formyl cyclopropanes.

Synthesis of Elongated Esters from Alkenes.

A convenient method for synthesizing elongated aliphatic esters from alkenes is reported. An (alkoxycarbonyl)methyl radical species is generated upon visible-light irradiation of an ester-stabilized phosphorus ylide in the presence of a photoredox catalyst. This radical species adds onto the carbon-carbon double bond of an alkene to produce an elongated aliphatic ester.

Cloning and characterization of decaprenyl diphosphate synthase from three different fungi.

Coenzyme Q (CoQ) is composed of a benzoquinone moiety and an isoprenoid side chain of varying lengths. The length of the side chain is controlled by polyprenyl diphosphate synthase. In this study, dps1 genes encoding decaprenyl diphosphate synthase were cloned from three fungi: Bulleromyces albus, Saitoella complicata, and Rhodotorula minuta. The predicted Dps1 proteins contained seven conserved domains found in typical polyprenyl diphosphate synthases and were 528, 440, and 537 amino acids in length in B. albus, S. complicata, and R. minuta, respectively. Escherichia coli expressing the fungal dps1 genes produced CoQ10 in addition to endogenous CoQ8. Two of the three fungal dps1 genes (from S. complicata and R. minuta) were able to replace the function of ispB in an E. coli mutant strain. In vitro enzymatic activities were also detected in recombinant strains. The three dps1 genes were able to complement a Schizosaccharomyces pombe dps1, dlp1 double mutant. Recombinant S. pombe produced mainly CoQ10, indicating that the introduced genes were independently functional and did not require dlp1. The cloning of dps1 genes from various fungi has the potential to enhance production of CoQ10 in other organisms.

Production of CoQ10 in fission yeast by expression of genes responsible for CoQ10 biosynthesis.

Coenzyme Q10 (CoQ10) is essential for energy production and has become a popular supplement in recent years. In this study, CoQ10 productivity was improved in the fission yeast Schizosaccharomyces pombe. Ten CoQ biosynthetic genes were cloned and overexpressed in S. pombe. Strains expressing individual CoQ biosynthetic genes did not produce higher than a 10% increase in CoQ10 production. In addition, simultaneous expression of all ten coq genes did not result in yield improvements. Genes responsible for the biosynthesis of p-hydroxybenzoate and decaprenyl diphosphate, both of which are CoQ biosynthesis precursors, were also overexpressed. CoQ10 production was increased by overexpression of Eco_ubiC (encoding chorismate lyase), Eco_aroF(FBR) (encoding 3-deoxy-D-arabino-heptulosonate 7-phosphate synthase), or Sce_thmgr1 (encoding truncated HMG-CoA reductase). Furthermore, simultaneous expression of these precursor genes resulted in two fold increases in CoQ10 production.