melanin biosynthesis
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Genome ◽  
2022 ◽  
Author(s):  
Sakura Hayashi ◽  
Konami Shimizu ◽  
Yusuke Honda ◽  
Yukako Katsura ◽  
Akihiko Koga

An albino infant wallaby was born to a mother with the wild-type body color. PCR and sequencing analyses of <i>TYR</i> (encoding tyrosinase, which is essential for melanin biosynthesis) of this albino wallaby revealed a 7.1-kb-long DNA fragment inserted in the first exon. Because the fragment carried long terminal repeats, we assumed it to be a copy of an endogenous retrovirus, which we named <i>walb</i>. We cloned other <i>walb</i> copies residing in the genomes of this species and another wallaby species. The copies exhibited length variation, and the longest copy (>8.0 kb) contained open reading frames whose deduced amino acid sequences were well aligned with those of <i>gag</i>, <i>pol</i>, and <i>env</i> of retroviruses. It is not known through which of the following likely processes the walb copy was inserted into <i>TYR</i>: endogenization (infection of a germline cell by an exogenous virus), reinfection (infection by a virus produced from a previously endogenized provirus), or retrotransposition (intracellular relocation of a provirus). In any case, the insertion into <i>TYR</i> is considered to have been a recent event on an evolutionary timescale because albino mutant alleles generally do not persist for long because of their deleterious effects in wild circumstances. 


2022 ◽  
Vol 8 (1) ◽  
pp. 57
Author(s):  
Nórida Vélez ◽  
Lucía Monteoliva ◽  
Zilpa-Adriana Sánchez-Quitian ◽  
Ahinara Amador-García ◽  
Rocío García-Rodas ◽  
...  

In fungi, metals are associated with the expression of virulence factors. However, it is unclear whether the uptake of metals affects their pathogenicity. This study aimed to evaluate the effect of iron/copper in modulating pathogenicity and proteomic response in two clinical isolates of C. neoformans with high and low pathogenicity. Methods: In both isolates, the effect of 50 µM iron and 500 µM copper on pathogenicity, capsule induction, and melanin production was evaluated. We then performed a quantitative proteomic analysis of cytoplasmic extracts exposed to that combination. Finally, the effect on pathogenicity by iron and copper was evaluated in eight additional isolates. Results: In both isolates, the combination of iron and copper increased pathogenicity, capsule size, and melanin production. Regarding proteomic data, proteins with increased levels after iron and copper exposure were related to biological processes such as cell stress, vesicular traffic (Ap1, Vps35), cell wall structure (Och1, Ccr4, Gsk3), melanin biosynthesis (Hem15, Mln2), DNA repair (Chk1), protein transport (Mms2), SUMOylation (Uba2), and mitochondrial transport (Atm1). Increased pathogenicity by exposure to metal combination was also confirmed in 90% of the eight isolates. Conclusions: The combination of these metals enhances pathogenicity and increases the abundance of proteins related to the main virulence factors.


2021 ◽  
Vol 8 (1) ◽  
pp. 38
Author(s):  
Mengkai Zhou ◽  
Ze Li ◽  
Yanjie Liu ◽  
Ping Zhang ◽  
Xiaoran Hao ◽  
...  

Melanins are the common fungal pigment, which contribute to stress resistance and pathogenesis. However, few studies have explored the regulation mechanism of its synthesis in filamentous fungi. In this study, we identified two transcription factors, Pmr1 and Pmr2, in the filamentous fungus Pestalotiopsis microspora. Computational and phylogenetic analyses revealed that Pmr1 and Pmr2 were located in the gene cluster for melanin biosynthesis. The targeted deletion mutant strain Δpmr1 displayed defects in biosynthesis of conidia pigment and morphological integrity. The deletion of pmr2 resulted in reduced conidia pigment, but the mycelial morphology had little change. Moreover, Δpmr2 produced decreased conidia. RT-qPCR data revealed that expression levels of genes in the melanin biosynthesis gene cluster were downregulated from the loss of Pmr1 and Pmr2. Interestingly, the yield of secondary metabolites in the mutant strains Δpmr1 and Δpmr2 increased, comparing with the wild type, and additionally, Pmr1 played a larger regulatory role in secondary metabolism. Taken together, our results revealed the crucial roles of the transcription factors Pmr1 and Pmr2 in melanin synthesis, asexual development and secondary metabolism in the filamentous fungus P. microspora.


2021 ◽  
Vol 11 (40) ◽  
pp. 177-178
Author(s):  
Francine Bittencourt Potrich ◽  
Helisa Wippel ◽  
Simone Martins De Oliveira ◽  
Dorly de Freitas Buchi ◽  
Carolina Camargo De Oliveira ◽  
...  

Background: Cutaneous melanoma is a highly malignant tumor derived from pigment-producing (melanin) melanocytes of skin epidermis. Cutaneous pigmentation is described as the major physiologic defense against UV radiation. During melanin biosynthesis and other tumorigenic process, reactive oxygen species (ROS) are produced and might be critically involved in several melanomagenesis stages. ROS play key roles on regulation of many types cell proliferation, including melanoma cells. Aims: In this work we evaluated the effects of highly diluted compounds on melanogenesis and changes in reactive oxygen species after 96 hours of treatment and possible involvement in tumorigenesis. Methodology: Melanin content was measured in B16-F10 cells after 96 hours of treatment with highly diluted compounds, as well as the superoxide anion, hydrogen peroxide and nitric oxide. Furthermore, the effects of highly diluted compounds on cell proliferation were investigated by trypan blue exclusion method after 48 hours of treatment. Results: Treatment led to an increase in B16-F10 melanin content and a decrease in nitrite concentration, an intermediate product of nitric oxide. We also observed a decrease in cell proliferation after treatment. It is well recognized that nitric oxide (NO) is involved in tumor progression, including melanoma. Several articles show that NO treated B16-F10 cells exhibited higher metastatic capacity. Thereby, reduction in cell proliferation can be due to low NO levels. It is speculated that melanocytes are programmed to survive in order to preserve their photoprotective role, thus in a compensatory manner the cell may be synthesizing melanin in response to cell proliferation reduction. Conclusions: These results suggest that treatment may be reducing tumorigenic capacity via ROS reduction. However further studies are need to better understand highly diluted compounds mechanisms of action.


2021 ◽  
Vol 12 ◽  
Author(s):  
Shengchao Ma ◽  
Hehe Liu ◽  
Jianmei Wang ◽  
Lei Wang ◽  
Yang Xi ◽  
...  

Sexual dimorphism of feather color is typical in mallards, in which drakes exhibit green head feathers, while females show dull head feather color. We showed that more melanosomes deposited in the males’ head’s feather barbules than females and further form a two-dimensional hexagonal lattice, which conferred the green feather coloration of drakes. Additionally, transcriptome analysis revealed that some essential melanin biosynthesis genes were highly expressed in feather follicles during the development of green feathers, contributing to melanin deposition. We further identified 18 candidate differentially expressed genes, which may affect the sharp color differences between the males’ head feathers, back feathers, and the females’ head feathers. TYR and TYRP1 genes are associated with melanin biosynthesis directly. Their expressions in the males’ head feather follicles were significantly higher than those in the back feather follicles and females’ head feather follicles. Most clearly, the expression of TYRP1 was 256 and 32 times higher in the head follicles of males than in those of the female head and the male back, respectively. Hence, TYR and TYRP1 are probably the most critical candidate genes in DEGs. They may affect the sexual dimorphism of head feather color by cis-regulation of some transcription factors and the Z-chromosome dosage effect.


Author(s):  
Yan Xu ◽  
Kevin Ao ◽  
Lei Tian ◽  
Yilan Qiu ◽  
Xingchuan Huang ◽  
...  

Most plant fungal pathogens that cause worldwide crop losses are understudied due to various technical challenges. With the increasing availability of sequenced whole genomes of these non-model fungi, effective genetic analysis methods are highly desirable. Here we describe a newly developed pipeline, which combines forward genetic screening with high-throughput next-generation sequencing to enable quick gene discovery. We applied this pipeline in the notorious soilborne phytopathogen, Sclerotinia sclerotiorum, and identified 32 mutants with various developmental and growth deficiencies. Detailed molecular studies of three melanisation-deficient mutants provide a proof of concept for the effectiveness of our method. A master transcription factor was found to regulate melanisation of sclerotia through the DHN (1,8-dihydroxynaphthalene) melanin biosynthesis pathway. In addition, these mutants revealed that sclerotial melanisation is important for sclerotia survival under abiotic stresses, sclerotial surface structure, and sexual reproduction. Foreseeably, this pipeline can be applied to facilitate efficient in-depth studies of other non-model fungal species in the future.


2021 ◽  
Author(s):  
Richard Mort ◽  
Emma Wilkinson ◽  
Sarah Allinson ◽  
Jemma G Kerns ◽  
Lorna Ashton

Raman spectroscopy is an emerging dermatological technique with the potential to discriminate biochemically between cell types in a label free and non-invasive manner. Here we use live single cell Raman spectroscopy and principal component analysis (PCA) to fingerprint mouse melanoblasts, melanocytes, keratinocytes and melanoma cells. We show the differences in their spectra are attributable to biomarkers in the melanin biosynthesis pathway and that melanoma cells are a heterogeneous population that sit on a trajectory between undifferentiated melanoblasts and differentiated melanocytes. We demonstrate the utility of Raman spectroscopy as a highly sensitive tool to probe the melanin biosynthesis pathway and its immediate response to UV irradiation revealing previously undescribed opposing responses to UVA and UVB irradiation in melanocytes. Finally, we identify melanocyte specific accumulation of β-carotene correlated with a stabilisation of the UVR response in lipids and proteins consistent with a β-carotene mediated photoprotective mechanism. In summary our data show that Raman spectroscopy can be used to determine the differentiation status of cells of the melanocyte lineage and describe the immediate and temporal biochemical changes associated with UV exposure which differ depending on cell type, differentiation status and competence to synthesise melanin.


2021 ◽  
Vol 11 ◽  
Author(s):  
Ahmad Najem ◽  
Jasper Wouters ◽  
Mohammad Krayem ◽  
Florian Rambow ◽  
Malak Sabbah ◽  
...  

The use of patient-derived primary cell cultures in cancer preclinical assays, including drug screens and genotoxic studies, has increased in recent years. However, their translational value is constrained by several limitations, including variability that can be caused by the culture conditions. Here, we show that the medium composition commonly used to propagate primary melanoma cultures has limited their representability of their tumor of origin and their cellular plasticity, and modified their sensitivity to therapy. Indeed, we established and compared cultures from different melanoma patients propagated in parallel in low-tyrosine (Ham’s F10) or in high-tyrosine (Ham’s F10 supplemented with tyrosine or RPMI1640 or DMEM) media. Tyrosine is the precursor of melanin biosynthesis, a process particularly active in differentiated melanocytes and melanoma cells. Unexpectedly, we found that the high tyrosine concentrations promoted an early phenotypic drift towards either a mesenchymal-like or senescence-like phenotype, and prevented the establishment of cultures of melanoma cells harboring differentiated features, which we show are frequently present in human clinical biopsies. Moreover, the invasive phenotype emerging in these culture conditions appeared irreversible and, as expected, associated with intrinsic resistance to MAPKi. In sharp contrast, differentiated melanoma cell cultures retained their phenotypes upon propagation in low-tyrosine medium, and importantly their phenotypic plasticity, a key hallmark of melanoma cells. Altogether, our findings underline the importance of culturing melanoma cells in low-tyrosine-containing medium in order to preserve their phenotypic identity of origin and cellular plasticity.


Author(s):  
Natsuki Nambu ◽  
Huei‐Fung Tsai ◽  
Yun C. Chang ◽  
K. J. Kwon‐Chung ◽  
Tomoki Yoshida ◽  
...  

2021 ◽  
Vol 7 (10) ◽  
pp. 841
Author(s):  
Benjamin D. Strycker ◽  
Zehua Han ◽  
Aysan Bahari ◽  
Tuyetnhu Pham ◽  
Xiaorong Lin ◽  
...  

Fungal melanins represent a resource for important breakthroughs in industry and medicine, but the characterization of their composition, synthesis, and structure is not well understood. Raman spectroscopy is a powerful tool for the elucidation of molecular composition and structure. In this work, we characterize the Raman spectra of wild-type Aspergillus fumigatus and Cryptococcus neoformans and their melanin biosynthetic mutants and provide a rough “map” of the DHN (A. fumigatus) and DOPA (C. neoformans) melanin biosynthetic pathways. We compare this map to the Raman spectral data of Aspergillus nidulans wild-type and melanin biosynthetic mutants obtained from a previous study. We find that the fully polymerized A. nidulans melanin cannot be classified according to the DOPA pathway; nor can it be solely classified according to the DHN pathway, consistent with mutational analysis and chemical inhibition studies. Our approach points the way forward for an increased understanding of, and methodology for, investigating fungal melanins.


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