Pigment Formation Research Articles

Coordinated Synthesis of Pigments Differing in Side Chain Length in Monascus purpureus and Investigation of Pigments and Citrinin Relation.

The Monascus fungi have traditionally been used in Asia for food coloring. Unfortunately, the most well-known species, Monascus purpureus, very often produce mycotoxin citrinin in addition to pigments, which poses a significant problem for the use of pigments in foods. There is a step in pigment biosynthesis where a side chain of five or seven carbons is attached to the tetraketide, the product of polyketide synthase, resulting in the formation of pigments in pairs. Further, it is still unclear whether pigment and citrinin biosyntheses are related or independent. Therefore, this study is focused on the relationship between pigment and citrinin production and pigment analogues that differ in side chain length, all evaluated by the Spearman correlation test. To generate sufficient data, Monascus purpureus DBM 4360 was cultivated with different carbon and nitrogen sources and under osmotic stress induced by glucose and/or sodium chloride. The study reveals a very strong correlation between the production of five- and seven-carbon side chain pigments under all culture conditions tested for all three groups, yellow, orange, and red pigments. The correlation between pigments and citrinin depended on the group assessed and ranged from fair to very strong. While the coordinated synthesis of pigment analogues in pairs has been clearly confirmed, the relationship between pigment and citrinin production was unfortunately neither confirmed nor refuted and must be the subject of further research.

Proteomic and metabolic profiling reveals molecular phenotype associated with chemotrophic growth of Rubrivivax benzoatilyticus JA2 on L-tryptophan.

Rubrivivax benzoatilyticus strain JA2 is an anoxygenic phototrophic bacterium, able to grow under different growth modes. Particularly under chemotrophic conditions, it produces novel Trp-melanin, anthocyanin-like, and pyomelanin pigments. However, the underlying molecular adaptations of strain JA2 that lead to the formation of novel metabolites under chemotrophic conditions remain unexplored. The present study used iTRAQ-based global proteomic and metabolite profiling to unravel the biochemical processes operating under the L-tryptophan-fed chemotrophic state. Exometabolite profiling of L-tryptophan fed chemotrophic cultures revealed production of diverse indolic metabolites, many of which are hydroxyindole derivatives, along with unique pigmented metabolites. Proteomic profiling revealed a global shift in the proteome and detected 2411 proteins, corresponding to 61.8% proteins expressed. Proteins related to signalling, transcription-coupled translation, stress, membrane transport, and metabolism were highly differentially regulated. Extensive rewiring of amino acid, fatty acid, lipid, and energy metabolism was observed under L-tyrptophan fed chemotrophic conditions. Moreover, energy conservation and cell protection strategies such as efflux pumps involved in the efflux of aromatic compounds were activated. The study demonstrated a correlation between some of the detected indole derivatives and the up-regulation of proteins associated with L-tryptophan catabolism, indicating a possible role of aromatic mono/dioxygenases in the formation of hydroxyindole derivatives and pigments under chemotrophic conditions. The overall study revealed metabolic flexibility in utilizing aromatic compounds and molecular adaptations of strain JA2 under the chemotrophic state.

Дрожжи – одна из причин появления пятен на поверхности сыров

Surface spoilage deteriorates the quality of cheese and may lead to product rejection. Red, yellow, and orange smears are associated with pigment-forming yeasts that produce carotenoids. Yeast enters cheese either with milk and brine, or from contaminated production environment. Production conditions, e.g., ripening or storage temperature, do not prevent yeast development and pigment formation. This research featured ripe soft and semi-hard cheeses produced in Mordovia, Krasnodar, Altai Region, and Moscow Region. All samples had surface defects, i.e., red and reddish-brown smears. The authors used standard methods of microbiological analysis to study the microflora from the colored areas in order to determine the microbiological defect risks and identify the pigment-forming microorganisms. Yeast proved to be the predominating microflora. Its development during ripening caused the formation of red and reddish-brown smears on soft and semi-hard cheeses. The coloration was usually light-induced and occurred during low-temperature ripening and storage.

Altered Photoprotective Mechanisms and Pigment Synthesis in Torreya grandis with Leaf Color Mutations: An Integrated Transcriptome and Photosynthesis Analysis

Torreya grandis is a widely cultivated fruit species in China that is valued for its significant economic and agricultural importance. The molecular mechanisms underlying pigment formation and photosynthetic performance in Torreya leaf color mutants remain to be fully elucidated. In this study, we performed transcriptome sequencing and measured photosynthetic performance indicators to compare mutant and normal green leaves. The research results indicate that the identified Torreya mutant differs from previously reported mutants, exhibiting a weakened photoprotection mechanism and a significant reduction in carotenoid content of approximately 33%. Photosynthetic indicators, including the potential maximum photosynthetic capacity (Fv/Fm) and electron transport efficiency (Ψo, φEo), decreased significantly by 32%, 52%, and 49%, respectively. While the quantum yield for energy dissipation (φDo) increased by 31%, this increase was not statistically significant, which may further reduce PSII activity. A transcriptome analysis revealed that the up-regulation of chlorophyll degradation-related genes—HCAR and NOL—accelerates chlorophyll breakdown in the Torreya mutant. The down-regulation of carotenoid biosynthesis genes, such as LCY1 and ZEP, is strongly associated with compromised photoprotective mechanisms and the reduced stability of Photosystem II. Additionally, the reduced expression of the photoprotective gene psbS weakened the mutant’s tolerance to photoinhibition, increasing its susceptibility to photodamage. These changes in gene expression accelerate chlorophyll degradation and reduce carotenoid synthesis, which may be the primary cause of the yellowing in Torreya. Meanwhile, the weakening of photoprotective mechanisms further impairs photosynthetic efficiency, limiting the growth and adaptability of the mutants. This study emphasizes the crucial roles of photosynthetic pigments and photosystem structures in regulating the yellowing phenotype and the environmental adaptability of Torreya. It also provides important insights into the genetic regulation of leaf color in relation to photosynthesis and breeding.

The influence of substituted indigo derivatives on the preparation and properties of “Maya” pigments

A small series of indigo derivatives were mixed with palygorskite or sepiolite, respectively, and heated at 150 °C overnight in order to prepare stable pigments. While mixtures with violet halo-indigos such as Tyrian Purple (6,6′-dibromoindigo) and its difluoro- and dichloro-derivatives formed blue pigments with a slight greenish hue upon heating, alkoxy-indigo derivatives turned olive green during the heating process when mixed with palygorskite or sepiolite. Mixtures of isatin and indigo with palygorsite led to the formation of green pigments. The pigments were analyzed by spectroscopy (UV-VIS and Raman) and electron microscopy. Thermal studies were carried out and the obtained pigments were stable at temperatures of up to 250 °C. Maya Blue and pigment samples derived from 6,6′-dichloroindigo were tested for their flame retarding properties in mixtures with cellulose acetate and both additives led to distinct heat release rate reductions.

A Novel Four-Step Regimen is Efficacious in Improving Uneven Skin Tone in Sensitive Skin Patients.

The appearance of dull skin, uneven skin tone, dark spots, and hyperpigmentation is often bothersome, especially in individuals with darker skin tones. Management of skin dyschromia can be difficult. Several topical ingredients, such as niacinamide and vitamin C, are clinically proven to inhibit pigmentation formation and improve overall skin tone. A skincare regimen formulated to minimize irregular melanin deposition levels has been specifically developed to help improve uneven skin tone for a more radiant appearance. This regimen consists of an exfoliating cleanser (EC), an antioxidant C serum (ACS), a day cream with SPF (DC), and a renewing cream (RC). A 12-week in-use clinical regimen study was conducted to assess the efficacy, tolerability, and consumer perception of these products on 43 subjects with mild-to-moderate uneven skin tone. Assessments included clinical photography, tolerability, and a self-assessment questionnaire. There was a noticeable improvement in uneven skin tone, as shown in clinical photography across all timepoints (weeks 4, 8, and 12) compared to baseline. The regimen was safe and well tolerated for use and was highly acceptable among the subjects, with 81% of participants agreeing that their skin was more radiant since initiation of the regimen and 76% agreeing that the regimen had helped to significantly reduce the appearance of dark spots after 12 weeks of use. There were no reported adverse events. Overall, these data show that this regimen is effective in reducing the appearance of uneven skin tone. J Drugs Dermatol. 2024;23(12):1072-1075. doi:10.36849/JDD.8220.

Melatonin Ameliorates Cadmium Toxicity in Tobacco Seedlings by Depriving Its Bioaccumulation, Enhancing Photosynthetic Activity and Antioxidant Gene Expression.

Soil remediation for cadmium (Cd) toxicity is essential for successful tobacco cultivation and production. Melatonin application can relieve heavy metal stress and promote plant growth; however, it remains somewhat unclear whether melatonin supplementation can remediate the effects of Cd toxicity on the growth and development of tobacco seedlings. Herein, we evaluated the effect of soil-applied melatonin on Cd accumulation in tobacco seedlings, as well as the responses in growth, physiological and biochemical parameters, and the expression of stress-responsive genes. Our results demonstrate that melatonin application mitigated Cd stress in tobacco, and thus promoted plant growth. It increased root fresh weight, dry weight, shoot fresh weight and dry weight by 58.40%, 163.80%, 34.70% and 84.09%, respectively, compared to the control. Physiological analyses also showed significant differences in photosynthetic rate and pigment formation among the treatments, with the highest improvements recorded for melatonin application. In addition, melatonin application alleviated Cd-induced oxidative damage by reducing MDA content and enhancing the activities of enzymatic antioxidants (CAT, SOD, POD and APX) as well as non-enzymatic antioxidants (GSH and AsA). Moreover, confocal microscopic imaging confirmed the effectiveness of melatonin application in sustaining cell integrity under Cd stress. Scanning Electron Microscopy (SEM) observations illustrated the alleviative role of melatonin on stomata and ultrastructural features under Cd toxicity. The qRT-PCR analysis revealed that melatonin application upregulated the expression of photosynthetic and antioxidant-related genes, including SNtChl, q-NtCSD1, NtPsy2 and QntFSD1, in tobacco leaves. Together, our results suggest that soil-applied melatonin can promote tobacco tolerance to Cd stress by modulating morpho-physiological and biochemical changes, as well as the expression of relevant genes.

TCONS_00025035-miR-101-UROS is potentially involved in the regulation of heme synthesis pathway and influences mantle melanin deposition by targeting porphyrin in Manila clam (Ruditapes philippinarum)

Shell color is an important economic trait and one of the target traits in breeding and production. Non-coding RNA (ncRNA) refers to RNA molecules transcribed from the genome and do not encoding proteins, which can regulate the expression of target genes after transcription and participate in the regulation of many important traits, such as the formation of shell color and body color. In this study, we detected the porphyrins in the shells of three Manila clams with different shell colors, explored the expression pattern and function of Uroporphyrinogen III synthetase (UROS) in the shell color pigmentation of Ruditapes philippinarum, and found that it might be involved in the synthesis of porphyrins and potentially in the synthesis of melanin. The results showed that the expression levels of heme synthesis-related genes such as UROS, Uroporphyrinogen decarboxylase (UROD), Ferrochelatase (FECH), Hephaestin (HEPH), and pigment synthesis-related genes (Peroxidasin PXDN) in the positive group were significantly reduced compared with the control group after injection of UROS dsRNA, indicating that UROS plays a crucial role in the porphyrin synthesis pathway. Additionally, transmission electron microscopy and melanin extraction experiments also proved that it might participate in the synthesis of melanin. We further explored and verified the relationship between TCONS_00025035-miR-101-UROS and identified the changes in the expression level of UROS through RNA interference and injection of miR-101 antagomir, respectively. Our results imply that miR-101 antagonists affect the expression of UROS. Furthermore, dual-luciferase reporter gene experiments confirmed the relationship between TCON_00025035, miR-101, and UROS. The regulatory relationship between TCONS_00025035 and miR-101 is negative, and the regulatory relationship between miR-101 and UROS is also negative. In summary, we verified the function of UROS through RNA interference, qPCR, in situ hybridization, and melanin content detection. We speculated that there was a negative relationship between miR-101 and UROS, and there was also a negative relationship between TCONS_00025035 and miR-101. TCONS_00025035 might regulate UROS through the regulation of miR-101, and UROS might also regulate other pigmentation-related genes and affect the formation of pigments, thereby influencing porphyrin and melanin formation in Manila clam.

Laccase: A Green Biocatalyst Offers Immense Potential for Food Industrial and Biotechnological Applications.

Laccase, a multipurpose biocatalyst, is widely distributed across all kingdoms of life and plays a key role in essential biological processes such as lignin synthesis, degradation, and pigment formation. These functions are critical for fungal growth, plant-pathogen interactions, and maintenance of soil health. Due to its broad substrate specificity, multifunctional nature, and environmentally friendly characteristics, laccase is widely employed as a catalyst in various green chemistry initiatives. With its ability to oxidize a diverse range of phenolic and nonphenolic compounds, laccase has also been found to be useful as a food additive and for assessing food quality parameters. Ongoing advancements in research and technology are continually expanding the recognition of laccase's potential to address global environmental, health, and energy challenges. This review aims to provide critical insights into the applications of laccases in the biotechnology and food industry.

Additions/removals of seeds before fermentation alters Cabernet Sauvignon wine color via modulating anthocyanins and derivatives

The advance of the grape harvest caused by global warming has to some extent resulted in poor or unstable wine color, this study investigated the potential benefits of grape seeds on wine color to mitigate this negative effect. Anthocyanins and their derivatives, and chromatic characteristics were measured by targeted UHPLC-QqQ-MS/MS and CIELab methods, respectively. The addition of seeds was beneficial to the formation of polymeric pigments and flavanyl-pyranoanthocyanins, while decreased the accumulation of other yranoanthocyanins, monomeric anthocyanins, and acylated anthocyanins during fermentation. All pigment levels in seed wine can be better maintained over time. Compared with the removal of seeds during fermentation, the addition of seeds significantly enhanced the color intensity, bluish hues, and Chroma, while an appropriate amount of seeds favored wine red hue. PLSR showed that the addition/removal of seeds during fermentation could alter red wine chromatic characteristics via modulating anthocyanin profiles. These results can be used as reference to further explore the technological applications of seeds during fermentation for optimizing the potential benefits on red wine color.

Comprehensive analysis of Hibisci mutabilis Folium extract's mechanisms in alleviating UV-induced skin photoaging through enhanced network pharmacology and experimental validation.

Skin photoaging induced by ultraviolet A (UVA) and ultraviolet B (UVB) radiation manifests as skin roughness, desquamation, pigmentation, and wrinkle formation. Current treatments, such as sunscreen, hormones, and antioxidants, have limitations and side effects. Traditional Chinese Medicine Hibisci Mutabilis Folium (HMF), or Mu-Fu-Rong-Ye in Chinese name, refers to the dried leaves of the plant Hibiscus mutabilis L., which belongs to the Malvaceae family. It has been used traditionally to treat acute mastitis, parotitis, neurodermatitis, burns. The reported activities of HMF include anti-inflammatory and anti-oxidant effects. However, the therapeutic potential of HMF in preventing and treating UV-induced skin photoaging remains unexplored. This study aimed to investigate the protective effects of HMF extract (EHMF) against UV-induced skin photoaging and the underlying mechanisms of action, by using network pharmacology and experimental verification. Network pharmacology was employed to identify the effective chemical components of EHMF. Potential targets were identified via PPI network analysis. Representative compounds were characterized using UPLC-MS/MS. In vitro validation involved assessing HaCaT cell viability, observing live/dead cell staining through fluorescence microscopy, and measuring inflammatory factors using ELISA. For in vivo validation, a UV-induced skin photoaging mice model was treated transdermally with EHMF or Methotrexate daily for 7 days. Dermatitis severity, skin morphology, and collagen fiber pathology were evaluated. Inflammatory cytokine and protein expression in dorsal skin lesions was confirmed using Elisa Kits, Western blot and immunohistochemistry. A total of 22 active ingredients of EHMF were identified. GO enrichment and KEGG pathway analyses revealed a focus on inflammatory signaling pathways. In vitro experiments showed that EHMF significantly reduced UV-induced inflammatory factors in HaCaT cells and improved cell survival rates. In vivo, EHMF alleviated back skin lesions in UV-exposed mice, reducing epidermal and dermal thickening and pathological inflammatory cell infiltration. It also decreased abnormal MMP-9 expression and collagen fiber proliferation, along with levels of inflammatory factors like TNF-α, IL-6, IL-17, and EGFR. Western blot and immunohistochemistry results indicated that the over-activation of the AKT-STAT3 signaling pathway was inhibited. EHMF effectively reduced UV-induced skin damage, inflammation, and wrinkles, providing strong support for its clinical application as a dermatological agent.

TRANSPARENT TESTA 16 collaborates with the MYB-bHLH-WD40 transcriptional complex to produce brown fiber cotton.

Naturally colored cotton (NCC; Gossypium spp.) does not require additional chemical dyeing and is an environmentally friendly textile material with great research potential and applications. Our previous study using linkage and association mapping identified TRANSPARENT TESTA 2 (Gh_TT2) as acting on the proanthocyanin synthesis pathway. However, limited information is available about the genetic regulatory network of NCC. Here, we verified the effectiveness of Gh_TT2 and the roles of Gh_TT2 and red foliated mutant gene (Re) in pigment formation and deposition of brown fiber cotton (BFC). Variations in Gh_TT2 derived from interspecific hybridization between Gossypium barbadense acc. Pima 90-53 and Gossypium hirsutum acc. Handan208 resulted in gene expression differences, thereby causing phenotypic variation. Additionally, the MYB-bHLH-WD complex was found to be negatively modulated by TRANSPARENT TESTA 16/ARABIDOPSIS BSISTER (TT16/ABS). RNA-seq suggested that differential expression of homologous genes of key enzymes in the proanthocyanin synthesis pathway strongly contributes to the color rendering of natural dark brown and light brown cotton. Our study proposes a regulatory model in BFC, which will provide theoretical guidance for the genetic improvement of NCC.

Calcium oxide nanoparticles ameliorate cadmium toxicity in alfalfa seedlings by depriving its bioaccumulation, enhancing photosystem II functionality and antioxidant gene expression

Cadmium (Cd) is a highly toxic and carcinogenic pollutant that poses significant risks to living organisms and the environment, as it is absorbed by the plant roots and accumulates in different parts of crop during its production. A promising sustainable strategy to counteract these threats to use calcium oxide nanoparticles (CaO-NPs) as soil supplements in fodder crops. This approach has shown notable morpho-physiological and biochemical improvements under metal toxicity conditions. However, the specific mechanisms driving Cd tolerance, particularly at physio-biochemical level and antioxidant related genes expression in fodder crops including alfalfa remain unexplored. CaO-NPs supplementation can trigger various signaling pathways that lead to enhance the photosynthetic pigments formation, stomatal conductance, CO2 assimilation rate and quantum yield of photosystem II. In this study, we evaluated various doses of CaO-NPs (0, 25, 50, and 100 mg kg−1) for their efficacy in reducing Cd bioavailability and toxicity in alfalfa plants. Our results demonstrated that Ca2+ and Cd2+, which share the same ionic radius, compete for ion transport through channels. The small size and high availability of CaO-NPs facilitate their rapid translocation within plant tissues, reducing metal uptake by 61 % in shoots and 30 % in roots. Notably, application of CaO-NPs at 100 mg kg−1 significantly increased shoot length (44 %) and root length (35 %) as compared to Cd-treated control plants. The highest dose of CaO-NPs also improved photosynthetic efficiency and gas exchange attributes including gs, Tr, Pn and Ci by 66 %, 27 %, 33 % and Ci 21 %, respectively, compared with the Cd treated control. Moreover, CaO-NPs (at 100 mg kg−1) alleviated metal-induced oxidative stress by boosting antioxidant enzyme activities like superoxide dismutase (25 %) peroxidase (42 %), catalase (72 %) and ascorbate peroxidase (87 %) and diminishing reactive oxygen species (ROS) production when compared with sole Cd treatment. Scanning and transmission electron microscopy revealed that CaO-NPs positively impacted stomatal conductance and mitigated Cd toxicity in leaf ultrastructure. Additionally, the highest dose of CaO-NPs markedly upregulated the expression of antioxidant-related genes, MsCu/Zn SOD, MtPOD, MtCAT, and MtAPX in roots and shoots by 0.67 and 1.03 fold-change (FC), 0.61 and 0.53 FC, 0.54 and 0.88 FC, and 0.46 and 0.66 FC, respectively. In conclusion, CaO-NPs demonstrate significant potential for environmentally friendly mitigation of Cd stress in alfalfa by reducing its uptake, thereby supporting sustainable agriculture.

Congenital hypertrophy of the retinal pigment epithelium (clinical cases)

Congenital hypertrophy of the retinal pigment epithelium is a benign pigmented formation on the globe fundus, which has a characteristic appearance during ophthalmoscopy and is not prone to significant growth as well as malignancy. Nevertheless, one of the forms of congenital hypertrophy of the retinal pigment epithelium is associated with familial adenomatous polyposis, therefore, for timely follow-up examination of patients, it is necessary to know the differential diagnostic criteria of various forms of this disease. The article presents three clinical cases and as well as summarizes information about various forms of congenital hypertrophy of the retinal pigment epithelium.

MpDLDH gene is crucial for regulating growth and pigment biosynthesis through acetyl-CoA modulation in Monascus purpureus

Monascus spp. are traditional medicinal and edible filamentous fungi in Asian countries. Monascus pigments (MPs) are the most well-known beneficial secondary metabolites produced by Monascus and used as natural food colorants with a long history. However, the understanding of the MPs biosynthesis remains limited due to their complexity and diversity, and the known MPs biosynthetic gene cluster (BGC) is also incomplete. In this study, we re-predicted the MPs BGC based on the genome sequence of Monascus purpureus and found seven new genes that may be involved in MPs biosynthesis. Among them, MpDLDH encodes a putative dihydrolipoamide dehydrogenase, which is the E3 subunit of pyruvate dehydrogenase (PDH) multiunit complex for catalyzing pyruvate to acetyl-CoA. MpDLDH knockout significantly decreased the acetyl-CoA content, and resulted in small pale colony, dramatically reduced biomass, few conidia, and absence of cleistothecia. MpDLDH deletion seriously repressed MPs biosynthesis, but did not change its composition. In addition to the increase of intracellular MPs production and acetyl-CoA in the late growth stage on solid medium, MpDLDH overexpression had no obvious effect on the phenotypes. Since acetyl-CoA is the crucial substrate for both MPs biosynthesis and tricarboxylic acid cycle, it is believed that MpDLDH of MPs BGC plays a key role in regulating cell growth, development and pigment formation through participating in the assembly of PDH complex to modulate the production of acetyl-CoA. These findings may deepen our understanding of the regulatory mechanisms between MPs biosynthesis and cell growth in Monascus species.

The underlying molecular mechanisms of hormonal regulation of fruit color in fruit-bearing plants.

Fruit color is a key feature of fruit quality, primarily influenced by anthocyanin or carotenoid accumulation or chlorophyll degradation. Adapting the pigment content is crucial to improve the fruit's nutritional and commercial value. Genetic factors along with other environmental components (i.e., light, temperature, nutrition, etc.) regulate fruit coloration. The fruit coloration process is influenced by plant hormones, which alsoplay a vital role in various physiological and biochemical metabolic processes. Additionally, phytohormones play a role in the regulation of a highly conserved transcription factor complex, called MBW (MYB-bHLH-WD40). The MBW complex, which consists of myeloblastosis (MYB), basic helix-loop-helix (bHLH), and WD40 repeat (WDR) proteins, coordinates the expression of downstream structural genes associated with anthocyanin formation. In fruit production, the application of plant hormones may be important for promoting coloration. However, concerns such as improper concentration or application time must be addressed. This article explores the molecular processes underlying pigment formation and how they are influenced by various plant hormones. The ABA, jasmonate, and brassinosteroid increase anthocyanin and carotenoid formation, but ethylene, auxin, cytokinin, and gibberellin have positive as well as negative effects on anthocyanin formation. This article establishes the necessary groundwork for future studies into the molecular mechanisms of plant hormones regulating fruit color, ultimately aiding in their effective and scientific application towards fruit coloration.

Influence of selected phenolic acids on advanced lipid oxidation end products generation in model systems

The objective of this study was to assess the inhibitory impacts of chlorogenic acid (CGA), ferulic acid (FA), and vanillic acid (VA) on advanced lipid oxidation end products (ALEs) generation in bovine serum albumin-linoleic acid models. The addition of 160 μg/mL CGA and VA significantly blocked the formation of lipofuscin-like pigments (LFLP), reducing them by 22.141% ± 1.823% and 12.156% ± 1.296% respectively. It is worth noting that the best inhibition of LFLP by FA was observed at 40 μg/mL (13.105% ± 0.731%). Compared to the control (25.280 ± 1.580 mg/kg protein), thiobarbituric acid reactive substances values were the lowest in the samples containing 160 μg/mL CGA (2.107 ± 0.912 mg/kg protein), 40 μg/mL FA (6.847 ± 1.824 mg/kg protein), and 160 μg/mL VA (10.007 ± 0.912 mg/kg protein) (P < 0.05). These results suggest that CGA has a more potent inhibitory effect on ALEs formation compared to FA and VA. Therefore, CGA, FA, and VA can be considered as safe dietary phenolic acids for reducing ALEs formation.

Endoscopic diagnosis of melanoma

Background. Although skin melanoma is a tumour which can be localised visually, its current diagnosis remains unsatisfactory. Skin melanoma exhibits an extremely diverse clinical presentation and a highly variable progression of the neoplastic process.Aim. To analyze our experience in diagnosing metastatic melanoma of the gastrointestinal tract.Materials and methods. The paper presents data from endoscopic and morphological studies of 29 patients who were diagnosed with metastatic melanoma with lesions of the gastrointestinal tract at the Department of Endoscopy the N. Blokhin National Medical Research Centre of Oncology.Results. Among the patients there were 12 (41.3 %) men and 17 (58.6 %) women, whose average age was 50 and 53 years, respectively, the majority of metastatic lesions of the gastrointestinal tract were asymptomatic, only 4 (13.8 %) patients had the disease accompanied by complaints such as difficulty passing food, in 2 cases (6.9 %) episodes of gastrointestinal bleeding were detected. In 7 (24.1 %) cases, the source of metastasis was not identified. The features of the manifestation of metastatic melanomas include the frequently combined lesions of the oesophagus, stomach and duodenum. In rare cases, there is a combination of pigmented and pigmented forms of melanoma.Conclusion. Given the high potential for regional metastasis, the ability of melanoma to disseminate through the skin, the occurrence of multiple metastases even in the absence of local growth, and its often asymptomatic progression in gastrointestinal organs, the diagnostic protocol should encompass the full spectrum of endoscopic techniques. This includes esophagogastroduodenoscopy and colonoscopy, utilizing advanced methods such as narrow-band imaging, magnification, or a combination of both. Biopsy samples should be taken for morphological, cytological, and immunological analysis. Additionally, comprehensive diagnostic methods such as immunoscopy should be employed.

DERMOSCOPIC FEATURES OF BASAL CELL CARCINOMA: SYSTEMATIC REVIEW

Abstract Background: Basal cell carcinoma is one of the most common cancers worldwide, it is a locally destructive and slowly spreading tumor arising from the epidermis or hair follicles, in which the peripheral cells are similar to the cells of the basal layer of the epidermis and which rarely metastasize. Despite its slow growth and low potential for metastasis, basal cell carcinoma (BCC) is one of the most pressing problems in dermato-oncology due to its high incidence rates, variety of clinical forms and frequent relapses after any treatment methods. Currently, the most accessible non-invasive method for examining skin tumors is dermatoscopy. Aim: The purpose of this review is to highlight the dermoscopic features encountered in basal cell carcinoma and to outline the role of dermoscopy for diagnosis this cancer. Methodology: The systematic review included articles from Google Scholar, Medline, Scopus, Web Of Sciences, PubMed was conducted. For the search, the following keywords were included: dermoscopy of pigmented form of basal cell carcinoma; dermoscopy of nonpigmented form of basal cell carcinoma. Results: Conducted a preliminary search and reviewed 62 titles and abstracts in this review and 27 full-text articles were selected of high methodological quality. Dermoscopy is a non-invasive technique, which allows early diagnosis based on the presence of typical vascular structures, pigmented structures, and ulceration and the absence of specific melanocytic structures. However, the use of dermoscopic technique is limited by the lack of prognostically significant dermatoscopic criteria confirming the different morphological nature of tumor growth. Conclusion: The current systematic review demonstrated, based on the observed features, this method allows for differential diagnosis of malignant and benign, as well as melanocytic and non-melanocytic skin neoplasms, as well as diagnosis of tumors at the earliest stage of their development.

Courtship performance, not ornamentation, predicts mating success in two sister-species of wolf spider with divergent phenotypes

Mate choice is posited to explain the evolution and maintenance of numerous secondary sexual traits, including ornamentation. This study explores the role of ornamentation in the mating success of two sister-species of wolf spider with divergent ornamentation. Mature male Schizocosa crassipalpata lack ornamentation while males of its closest living relative, S. bilineata, express both dark pigmentation and foreleg brushes. Following phenotypic manipulations of foreleg ornamentation – i.e. adding ornamentation in the form of dark pigment to non-ornamented males (S. crassipalpata, Aim 1) and removing ornamentation in varying degrees from highly ornamented males (S. bilineata, Aim 2 – shaving brushes; Aim 3 – shaving brushes and painting over dark pigment in vibration present/absent environments) – we found no evidence that ornamentation alone improves male mating success in either species, regardless of the vibratory signaling environment. In both S. bilineata experiments, however, higher courtship rates resulted in higher mating success, suggesting selection for courtship performance. Furthermore, females were more likely to turn, a presumed receptivity display, in response to males that courted at a higher rate. Also, similar to findings in another relative (S. stridulans), we found indications that ornamentation may function to ease a male’s reliance on courtship performance – i.e., at low courtship rates, only ornamented males can secure a mating. Our phenotypic manipulations also influenced courtship behavior in S. bilineata. Shaved males began courting earlier and courted more often over a longer time than intact males, yet ultimately acquired similar matings. This increased courtship effort likely compensated for reduced ornamentation. Finally, the vibratory environment appears crucial for female–male dialogue in S. bilineata, as vibratory absent environments resulted in increased female attacks and decreased male courtship rates. Together, our data suggest that S. crassipalpata females do not possess a preference for ornamentation and that S. bilineata females do not use ornamentation alone in mating decisions. Instead, our results are consistent with a hypothesis that ornamentation in Schizocosa evolved, and is likely maintained, due to its interactions with dynamic movement displays (i.e. leg movements), which can themselves be plastically altered based on the signaler’s phenotype as well as the signaling environment.