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Chemical compound
people can have an allergic reaction to atranorin. "Atranorin (CAS 479-20-9)". www.caymanchem.com. "479-20-9 | Atranorin | Atranorine; NSC 249980; NSC 685591;
Atranorin
Secondary metabolite made by a lichen
lichens. Examples of lichen products include usnic acid (a dibenzofuran), atranorin (a depside), lichexanthone (a xanthone), salazinic acid (a depsidone)
Lichen_product
Species of lichen
outcrop in Morro Chico (Magallanes Province, Chile). The lichen contains atranorin, stictic acid, cryptostictic acid, menegazziaic acid, and constictic acid
Menegazzia_kawesqarica
Species of lichen-forming fungus
Alan Fryday and Brian John Coppins. It has a dispersed thallus with only atranorin as its sole lichen product. "Cliostomum falklandicum Fryday & Coppins"
Cliostomum_falklandicum
Species of lichen
1901. The species contains several lichen products, including depsides (atranorin and chloroatranorin), depsidones (stictic acid, constictic acid, norstictic
Menegazzia_foraminulosa
Species of lichen-forming fungus
15 cm (6 in) tall. Secondary compounds occurring in the lichen include atranorin, ursolic acid, and usnic acid. Pulchrocladia ferdinandii has an Australian
Pulchrocladia_ferdinandii
Species of lichen
soredia and shows considerable chemical variation, typically containing atranorin and rangiformic acid. The species was described as new to science by Katileena
Lepraria_borealis
Species of lichen
distinguished from related species by its chemical composition, containing atranorin and physodic acid, and its preference for exposed Arctic–alpine habitats
Brodoa_oroarctica
Species of lichen
typically 1–3 mm wide. Secondary compounds present in the lichen include atranorin and chloratranorin in the cortex, and salazinic acid and consalazinic
Parmotrema_anchietanum
Species of lichen
stictic acid as its major secondary metabolite, along with minor amounts of atranorin and constictic acid. Menegazzia fortuita was formally described in 2017
Menegazzia_fortuita
Species of lichen-forming fungus
Chemical studies have identified several compounds in the lichen, including atranorin, zeorin, and lichexanthone. Pyxine consocians was first described by the
Pyxine_consocians
Species of lichen
developed lower cortex with sparse rhizines, and K-positive cortex containing atranorin. Physcia dakotensis was formally described as new to science in 2004 by
Physcia_dakotensis
Species of lichen
identified several lichen substances in the species, including stictic acid, atranorin, and zeorin, which help distinguish it from similar powdery lichens. Lepraria
Lepraria_indica
Species of lichen
species is known for producing certain secondary metabolites, namely atranorin and a group of substances known as the stictic acid complex, which includes
Parmotrema_perlatum
Species of lichen
cottony texture, weakly developed lobes, and chemical composition including atranorin and stictic acid. Molecular studies have since shown that Lepraria lobificans
Lepraria_lobificans
Chemical compound
identified in dozens of lichen species. It is a chlorinated derivative of atranorin and the two are frequently found together in the same source. Ramault
Chloroatranorin
Species of lichen
variation, with several distinct variants. The most common form contains atranorin, fumarprotocetraric acid, protocetraric acid (in variable amounts), and
Lepraria_caesioalba
Genus of lichens
chemical composition and reproductive features, lacking a substance called atranorin and producing ellipsoidal spores. While some species reproduce through
Phaeophyscia
Species of lichen
identified by its chemical spot test reactions due to the presence of atranorin and gyrophoric acid. It is found in several European countries including
Buellia_saxorum
Species of lichen
sterile, as neither ascomata nor conidiomata are produced. It contains atranorin, a common lichen product, some anthraquinones, as well as two unidentified
Lepraria_granulata
Species of lichen
(yellow), C−, KC−, P−, and UV− in the cortex, indicating the presence of atranorin; in the medulla, which contains caperatic acid, the K+ (lilac or purple)
Punctelia_purpurascens
Species of lichen-forming fungus
leucomelos contains several biologically active compounds, including atranorin, salazinic acid, and other substances that show antifungal properties
Leucodermia_leucomelos
Species of lichen
used as a purported health-promoting tea in Yunnan, China. It contains atranorin, canarione, gyrophoric acid, and norstictic acid (minor) as lichen products
Lethariella_cashmeriana
Species of lichen
Parmotrema amaniense include alectoronic acid, protocetraric acid, and atranorin. In addition to Tanzania, it has been recorded in Uganda, Angola, Malawi
Parmotrema_amaniense
Genus of lichens
Pilophorus species contain the common secondary metabolite (lichen product) atranorin, and may also contain zeorin. They grow mainly on rock in temperate, mountainous
Pilophorus_(fungus)
Species of lichen
to the genus Menegazzia in 1943. It contains several lichen products: atranorin, conpsoromic acid, echinocarpic acid, and psoromic acid. List of Menegazzia
Menegazzia_dielsii
Single-species fungal genus
in this species. In terms of chemical composition, Cetradonia contains atranorin and lichesterinic acids. Cetradonia linearis is endemic to the southern
Cetradonia
Species of lichen
to base its description". The lichen contains the secondary compounds atranorin and caperatic acid. Menegazzia inactiva is a closely related species that
Menegazzia_abscondita
Species of lichen
presence of the secondary compounds psoromic acid, and sometimes also atranorin. Bryoria kockiana is endemic to North America, where it grows on conifer
Bryoria_kockiana
Chemical compound
structure from 1941. In the lichen A. friesiana, argopsin occurs alongside atranorin, though its presence is described as "inconstant". The related species
Argopsin
Species of lichen
Chemically, it contains lichen products in the stictic acid complex, including atranorin, norstictic acid, and cryptostictic acid. The expected results of chemical
Stereocaulon_dactylophyllum
Species of lichen-forming fungus
terebrata produces a number of secondary metabolites. The cortex contains atranorin. The medullar layer contains menegazziaic acid, stictic acid and constictic
Menegazzia_terebrata
Species of lichen-forming fungus
lobe margins, simple or sparsely branched rhizines, and production of atranorin. These features justified their placement in the genus Nipponoparmelia
Nipponoparmelia_laevior
Species of lichen-forming fungus
and not flexuose, and it lacks 6-O-methylarthothelin (containing only atranorin). The thallus of Tetramelas papillatus is white to grey-white and breaks
Tetramelas_papillatus
Species of lichen
(yellow). Secondary metabolites (lichen products) in the species include atranorin, zeorin, and leucotylin. Moberg, Roland (1990). "The lichen genus Physcia
Physcia_cinerea
Species of lichen-forming fungus
chemical spot tests, the thallus is K+ (yellow) and C−/KC−/PD−, with atranorin detected by thin-layer chromatography. "Phyllopsora himalayensis G.K.
Phyllopsora_himalayensis
Genus of lichens
to fine threads. Chemically the genus is varied: many species deposit atranorin or lichexanthone in the cortex and store an assortment of depsidone acids
Tephromela
Species of lichen
surface. Secondary compounds that occur in Hypogymnia papilliformis include atranorin, and physodic acid as major metabolites, and minor amounts of 2'-O-methylphysodic
Hypogymnia_papilliformis
Species of lichen
that lack septa and are halonate. It resembles M. aurigera but lacks atranorin and tends to have larger spores. The species was introduced as Malmidea
Malmidea_coralliformis
Species of lichen
well, turning purple. Among the substances produced by the lichen are atranorin, zeorin, and porphyrillic acid. The variety ochroleucum also produces
Haematomma_ochroleucum
Species of lichen
lower surface is black. Punctelia imbricata contains trace amounts of atranorin and lecanoric acid, minor amounts of orcinyl lecanorate, and gyrophoric
Punctelia_imbricata
Species of fungus
cracks, or fissures). Secondary chemicals produced by the lichen include atranorin, epinorin, and zeorin. Lecanora vainioi grows on siliceous rocks and boulders
Lecanora_vainioi
Species of lichen
(yellow); medulla K–, C–, P+ (orange-red). Identified substances include atranorin and chloroatranorin (minor) in the cortex and protocetraric acid (major)
Anzia_entingiana
Species of lichen-forming fungus
several trace compounds including cryptostictic and hypostictic acids, and atranorin. Relicina subcoronata is considered very rare and has not been recorded
Relicina_subcoronata
Species of lichen
turning red), C−, KC−, PD+ (orange); thin-layer chromatography shows atranorin and salazinic acid. These characters, together with its bark-dwelling
Parmelia_hygrophila
Species of lichen
(K+) test, turning yellow. Chemical analysis reveals the presence of atranorin and zeorin as major secondary metabolites, with various hopane-related
Physcia_neonubila
Species of lichen
species of cup lichen in the family Cladoniaceae. Cladonia turgida contains atranorin and fumarprotocetraric acid with the latter compound sometimes in low
Cladonia_turgida
Species of lichen
present in the center. There is no visible sign of apothecia and pycnidia. Atranorin and gyrophoric acid are two lichen products that occur in Parmotrema upretii
Parmotrema_upretii
Species of lichen
lacinules (vegetative propagules). The lichen contains trace amounts of atranorin, and lecanoric acid as the main secondary metabolite. Marcelli, Marcelo
Punctelia_digitata
Species of lichen
marginal zone (i.e. without rhizines). Secondary compounds present are atranorin, alectoronic and α-collatolic acids, sometimes accompanied also by skyrin
Parmotrema_arnoldii
Species of lichen
analysis shows the presence of the following lichen products in the thallus: atranorin, canarione, psoromic acid, 2'-O-demethylpsoromic acid, and traces of gyrophoric
Lethariella_sinensis
Species of lichen
10.5–15.5 by 5–6 μm). Lichen products that occur in this species are atranorin, pannarin, and thiophanic acid. "Palicella lueckingii Rodr. Flakus". Catalogue
Palicella_lueckingii
Species of lichen-forming fungus
mistaken for it, but that species has denser, cylindrical isidia and lacks atranorin and chloroatranorin in the upper cortex. The lichen forms loose, pale
Anzia_gallowayi
Genus of lichens
applied, the cortex stains yellow owing to the presence of the substance atranorin, and in some specimens usnic acid is also present. The medulla usually
Evernia
Species of lichen
small – measuring up to 1 mm in diameter. Phyllopsora amazonica contains atranorin as a major lichen product, as well as several terpenoid compounds. Phyllopsora
Phyllopsora_amazonica
Genus of lichen-forming fungi
absent from Antarctica. All species produce the compounds sordidone and atranorin as their main secondary metabolites. In 2025, a multi-locus phylogenetic
Glaucomaria
Genus of lichens
the lichen structure. The cortex contains small amounts of the compound atranorin, while the medulla contains β-orcinol depsidones. When reproducing, these
Pseudoparmelia
Species of lichen
sorediate, with perforated axils. They contain two secondary metabolites: atranorin and fumarprotocetraric acid. Chemical spot test results are K+ (dingy
Cladonia_strangulata
Species of lichen
been observed. Chemical analysis reveals that Lecanora kansriae contains atranorin and stictic acid as major secondary metabolites, along with chloroatranorin
Lecanora_kansriae
Species of lichen
potassium hydroxide solution (K+ yellow), indicating the presence of atranorin and zeorin among other triterpenes which contribute to its chemical makeup
Physcia_verdonii
Species of lichen-forming fungus
an epispore about 1 μm thick. The chemistry includes lichen products: atranorin, salazinic acid, and consalazinic acid, with norstictic acid present or
Parmelia_submutata
Species of lichen-forming fungus
outer wall (epispore) 2–3 μm thick. Chemically, the species contains atranorin, salazinic acid and consalazinic acid. Parmelia adaugescens is a widespread
Parmelia_adaugescens
Species of lichen
becoming darker (almost black) near the centre. The lichen contains atranorin, lecanoric acid, and several butlerins (A, B, E, and F) as minor compounds
Punctelia_roseola
Genus of lichen
grey rather than the typical yellowish-green, though both forms produce atranorin in the cortex. These chemotypes can occur side by side, and studies have
Arctoparmelia
Species of lichen
contains norstictic acid as a major compound, testacein (submajor), and atranorin as a minor secondary metabolite. Thin-layer chromatography shows that
Pyxine_profallax
Species of foliose lichen
addition to the characteristic methyl baeomycesate, it contains usnic acid, atranorin, and significant amounts of constipatic and protoconstipatic acids, alongside
Xanthoparmelia_baeomycesica
Species of lichen
up to 7 cm (2.8 in) in diameter. It contains the secondary compounds atranorin, chloroatranorin, and physodic acid as major metabolites. Elix, John A
Hypogymnia_australica
Species of lichen
chemical spot test. Thin-layer chromatography showed the presence of atranorin in the thallus. Pyrrhospora endaurantia forms a thin (roughly 0.05–0.1 mm)
Pyrrhospora_endaurantia
Species of lichen
Santesson transferred the taxon to Menegazzia in 1942. The species contains atranorin, hypothamnolic acid, and thamnolic acid as lichen products. List of Menegazzia
Menegazzia_sanguinascens
Species of lichen
compound of C. sayanensis is imbricaric acid, while minor compounds include atranorin, perlatolic acid, divaricatic acid, and anziaic acid. Otnyukova, Tatyana
Cetrelia_sayanensis
Species of lichen
leaf-like thallus with a black lower surface and the cortical substance atranorin. The type specimen was collected in the municipality of Serra Negra, São
Parmotrema_applanatum
Species of lichen
asci, and abundant pycnidia, identified chemically by compounds like atranorin and stictic acid. The lichen was described as new to science in 2011 by
Menegazzia_endocrocea
Species of lichen
as a major secondary in the lichen. Other compounds in the lichen are atranorin, hybocarpone, constipatic acid, and norlichexanthone (the last three occurring
Lecanora_lichexanthona
Species of lichen-forming fungus
measure about 7.5–10.0 × 3.0–4.5 μm. Chemically, the species contains atranorin together with alectorialic and psoromic acids, and it may also contain
Pulvinora_pringlei
Single-species fungal genus
varians, each tied to a distinctive cocktail of lichen products such as atranorin, thuringione, arthothelin or thiophanic acid. Because the chemical patterns
Xanthosyne
Species of lichen
bergensis is distinguished by the presence of several secondary metabolites: atranorin, rangiformic acid or jackinic acid, trace amounts of their respective
Lepraria_bergensis
Species of lichen
Menegazzia in 1942. Lichen products that occur in Menegazzia dispora include atranorin, chloroatranorin, hypostictic acid, hypoconstictic acid, and α-acetylhypoconstictic
Menegazzia_dispora
Species of lichen
give K+ (yellow), C− and P− reactions; thin-layer chromatography detects atranorin and zeorin as the only secondary metabolites. Pilophorus fruticosus is
Pilophorus_fruticosus
Species of lichen
lichen is characterized chemically by the presence of thamnolic acid and atranorin as lichen products. "Lepraria brasiliensis Elix, A.A. Spielm. & Øvstedal"
Lepraria_brasiliensis
Genus of lichen-forming fungi
lichens are chemically diverse and produce several secondary chemicals: atranorin is the main compound produced in the cortex, while substances known as
Cetrelia
Species of lichen
sheltered rock ledges. The lichen products made by Lepraria sekikaica include atranorin, homosekikaic acid, 4'-O-demethylsekikaic acid, and fragilin as minor
Lepraria_sekikaica
Species of lichen
chemicals protolichesterinic acid and lichesterinic acid in the medulla, and atranorin and minor amounts of chloroatranorin in the cortex. The set of characteristics
Punctelia_bolliana
Species of lichen
of collected specimens showed the presence of three lichen products: atranorin, roccellic acid, and angardianic acid. The species epithet wangii honours
Violella_wangii
Genus of lichens
pycnoconidia (asexual reproductive structures), and the presence of the chemical atranorin in the upper cortex. Physcia has been divided into sections based on morphological
Physcia
Species of lichen
thallus is pale brown, becoming darker near the centre. The lichen contains atranorin as a minor substance, gyrophoric acid as a major substance, and trace
Punctelia_crispa
Species of lichen-forming fungus
marginal linear pseudocyphellae, and a chemical composition that includes atranorin, salazinic acid, and consalazinic acid. While similar to other Parmelia
Parmelia_asiatica
Species of lichen
diameter, and lack projecting hyphae. The species typically contains atranorin, jackinic/rangiformic acid, norjackinic/norrangiformic acid (in minor
Lepraria_humida
Chemical test for identifying lichens
red colours are produced with the K test and some depsides (including atranorin and thamnolic acid), and many β-orcinol depsidones. In contrast, xanthones
Spot_test_(lichen)
Species of lichen
Like many lichens, it produces several secondary metabolites including atranorin, salazinic acid, and consalazinic acid, despite its chemical profile being
Parmelia_submontana
Species of lichen
secondary metabolites (lichen products), including protocetraric acid and atranorin, and sometimes usnic and fatty acids. The species was first scientifically
Parmotrema_robustum
Species of lichen
apothecial margins. Secondary compounds in the lichen include arthothelin, atranorin, chloroatranorin, and thiophanic acid. List of Lecanora species "Lecanora
Lecanora_luteomarginata
Species of lichen
species also produces a characteristic suite of secondary metabolites—atranorin, usnic acid and isoarthothelin—that aid chemical identification. The species
Lecanora_ulrikii
Species of lichen
characteristic secondary metabolite of S. ramulosum is atranorin, a depside. During the extraction phase, atranorin suffer an alcoholysis reaction, producing methyl/ethyl
Stereocaulon_ramulosum
Species of foliose lichen
undersurface. Chemically, the presence of lecanoric acid in the medulla and atranorin in the cortex help distinguish it from lookalikes. The lichen was first
Punctelia_hypoleucites
Species of crustose lichen
in white powdery crystals, and produces chemical compounds including atranorin and protocetraric acid that yield characteristic reactions in spot tests
Lecanora_subcarnea
Species of lichen
having a non-amyloid medulla, narrower ascospores, and containing only atranorin. The thallus of Tetramelas flindersianus is crustose and areolate, growing
Tetramelas_flindersianus
Species of lichen
cluster into larger groups (consoredia) of 200–300 μm. The species contains atranorin, porphyrilic acid, and a fatty acid (either roccelic/angardianic acid
Lepraria_alpina
Species of foliose lichen
brown lower surface. It is chemically characterized by the presence of atranorin and norlobaridone, and is morphologically similar to but distinct from
Xanthoparmelia_convolutoides
Species of lichen
metabolites in this species, including roccellic acid, toensbergianic acid, and atranorin, along with minor amounts of anthraquinone pigments found only in the
Lepraria_sylvicola
Species of lichen
analysis reveals a consistent profile of secondary metabolites, including atranorin, porphyrilic acid, and strepsilin, the last of which produces a characteristic
Lepraria_nothofagi
ATRANORIN
ATRANORIN
ATRANORIN
ATRANORIN
Boy/Male
English
Lives at the castle ford.
Boy/Male
Hindu, Indian, Marathi
Lord Vishnu
Surname or Lastname
Southern Irish
Southern Irish : Anglicized form of Gaelic Ó CrÃodáin or Mac CrÃodáin ‘descendant (or ‘son’) of CrÃodán’, an Old Irish personal name of uncertain meaning (the ending is diminutive in form).English : habitational name from Creeton in Lincolnshire, so named with an unattested Old English personal name CrÇ£ta + Old English tÅ«n.
Girl/Female
English American
Modern feminine of John and Jon.
Girl/Female
Hindu, Indian, Marathi
Loving; Affectionate
Girl/Female
German
Industrious
Boy/Male
Muslim
Generous
Boy/Male
Tamil
Shardool | ஷாரà¯à®¤à¯‚ல
Lion, A tiger
Boy/Male
Hindu, Indian
Very Soft Mind
Girl/Female
Tamil
Agnijwaala | அகà¯à®¨à®¿à®œà¯à®µà®¾à®³à®¾
One who is poignant like fire, It signifies fire
ATRANORIN
ATRANORIN
ATRANORIN
ATRANORIN
ATRANORIN