Direct observation of Mn distribution/speciation within and surrounding a basidiomycete fungus in the production of Mn-oxides important in toxic element containment

Takeda, Ayaka; Oki, Takumi; Yokoo, Hiroki; Kawamoto, Keisuke; Nakano, Yuriko; Ochiai, Asumi; Winarni, Ilma Dwi; Kitahara, Mitsuki; Miyoshi, Kenta; Fukuyama, Kenjin; Ohara, Yoshiyuki; Yamaji, Keiko; Ohnuki, Toshihiko; Hochella, Michael F.; Utsunomiya, Satoshi

doi:10.1016/j.chemosphere.2022.137526

Direct observation of Mn distribution/speciation within and surrounding a basidiomycete fungus in the production of Mn-oxides important in toxic element containment

Journal

Chemosphere

Journal Volume

313

Start Page

137526

ISSN

0045-6535

Date Issued

2023-02

Author(s)

Takeda, Ayaka

Oki, Takumi

Yokoo, Hiroki

Kawamoto, Keisuke

Nakano, Yuriko

Ochiai, Asumi

Winarni, Ilma Dwi

Kitahara, Mitsuki

Miyoshi, Kenta

Fukuyama, Kenjin

Ohara, Yoshiyuki

Yamaji, Keiko

Ohnuki, Toshihiko

Hochella, Michael F.

Utsunomiya, Satoshi

DOI

10.1016/j.chemosphere.2022.137526

URI

https://www.scopus.com/pages/publications/85144445997?inward

https://scholars.lib.ntu.edu.tw/handle/123456789/734963

Abstract

Biogenic manganese (Mn) oxides occur ubiquitously in the environment including the uranium (U) mill tailings at the Ningyo-toge U mine in Okayama, Japan, being important in the sequestration of radioactive radium. To understand the nanoscale processes in Mn oxides formation at the U mill tailings site, Mn2+ absorption by a basidiomycete fungus, Coprinopsis urticicola, isolated from Ningyo-toge mine water samples, was investigated in the laboratory under controlled conditions utilizing electron microscopy, synchrotron-based X-ray analysis, and fluorescence microscopy with a molecular pH probe. The fungus’ growth was first investigated in an agar-solidified medium supplemented with 1.0 mmol/L Mn2+, and Cu2+ (0–200 μM), Zn2+ (0–200 μM), or diphenyleneiodonium (DPI) chloride (0–100 μM) at 25 °C. The results revealed that Zn2+ has no significant effects on Mn oxide formation, whereas Cu2+ and DPI significantly inhibit both fungal growth and Mn oxidation, indicating superoxide-mediated Mn oxidation. Indeed, nitroblue tetrazolium and diaminobenzidine assays on the growing fungus revealed the production of superoxide and peroxide. During the interaction of Mn2+ with the fungus in solution medium at the initial pH of 5.67, a small fraction of Mn2+ infiltrated the fungal hyphae within 8 h, forming a few tens of nm-sized concentrates of soluble Mn2+ in the intracellular pH of ∼6.5. After 1 day of incubation, Mn oxides began to precipitate on the hyphae, which were characterized as fibrous nanocrystals with a hexagonal birnessite-structure, these forming spherical aggregates with a diameter of ∼1.5 μm. These nanoscale processes associated with the fungal species derived from the Ningyo-toge mine area provide additional insights into the existing mechanisms of Mn oxidation by filamentous fungi at other U mill tailings sites under circumneutral pH conditions. Such processes add to the class of reactions important to the sequestration of toxic elements.

Subjects

Basidiomycota

Fungi

Manganese Compounds

Oxidation-Reduction

Oxides

Superoxides

Chugoku

Honshu

Japan

Ningyo Pass

Okayama

Chlorine compounds

Energy dispersive X ray analysis

Fluorescence microscopy

Groundwater

Nanotechnology

Oxidation

pH

Water absorption

X ray diffraction analysis

chloride

cupric ion

diaminobenzidine

diphenyliodonium salt

manganese

manganese oxide

nanocrystal

nitroblue tetrazolium

peroxide

radium

superoxide

uranium

yeast extract

zinc ion

manganese derivative

oxide

Biogenic manganese oxides

Direct observations

Manganese distribution

Manganese oxidations

Nano scale

Oxide formation

Toxic elements

Zn 2+

fungus

oxidation

speciation (chemistry)

toxic substance

absorption

Article

Basidiomycetes

cell pH

Coprinopsis urticicola

electron microscopy

filamentous fungus

fluorescence microscopy

fungus growth

fungus hyphae

fungus isolation

measurement

mine tailings

nonhuman

precipitation

synchrotron radiation

water sampling

X ray absorption spectroscopy

X ray analysis

chemistry

oxidation reduction reaction

Publisher

Elsevier BV

Type

journal article

Direct observation of Mn distribution/speciation within and surrounding a basidiomycete fungus in the production of Mn-oxides important in toxic element containment

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