Results 231 to 240 of about 64,078 (262)
Some of the next articles are maybe not open access.
Ctenactis cf. crassa (Dana, 1846) Materials Type status: Other material. Occurrence: occurrenceRemarks: Observed and photographed on a current-exposed shallow reef slope; occurrenceStatus: present; occurrenceID: 836A8707-0412-5C0E-8924-858A9CDA304F; Taxon: scientificNameID: urn:lsid:marinespecies.org:taxname:288875; scientificName: Ctenactis cf. crassa;
Koch, Theres +10 more
openaire +1 more source
Koch, Theres +10 more
openaire +1 more source
2020
Published as part of Martin, Gavin J. & Saxton, Natalie A., 2020, Additional type designations for fireflies (Coleoptera: Lampyridae) of the Biologia Centrali Americana housed in the Natural History Museum, London, pp.
Martin, Gavin J., Saxton, Natalie A.
openaire +1 more source
Published as part of Martin, Gavin J. & Saxton, Natalie A., 2020, Additional type designations for fireflies (Coleoptera: Lampyridae) of the Biologia Centrali Americana housed in the Natural History Museum, London, pp.
Martin, Gavin J., Saxton, Natalie A.
openaire +1 more source
2001
Poecilasma crassa (Gray, 1848) (Figs 6-9) Anatifa crassa Gray, 1848: 44, pl. 3, figs 5, 6. Poecilasma crassa – Darwin 1852: 107, pl. 2, fig. 3. — Barnard 1924: 52. — Zevina 1982: 96, fig. 85; 1983: 1635; 1990: 184. — Southward 1998: 18. Poecilasma crassum – Hoek 1883: 28; 1907a: 4. — Weltner 1897: 243; 1922: 78, pl. 4, fig. 17.
openaire +1 more source
Poecilasma crassa (Gray, 1848) (Figs 6-9) Anatifa crassa Gray, 1848: 44, pl. 3, figs 5, 6. Poecilasma crassa – Darwin 1852: 107, pl. 2, fig. 3. — Barnard 1924: 52. — Zevina 1982: 96, fig. 85; 1983: 1635; 1990: 184. — Southward 1998: 18. Poecilasma crassum – Hoek 1883: 28; 1907a: 4. — Weltner 1897: 243; 1922: 78, pl. 4, fig. 17.
openaire +1 more source
2019
(12) Ramotha crassa (Klie, 1929) One of us (KM) checked old notes and is no longer convinced that Strandesia crassa Klie, 1939 belongs to Bradleystrandesia as in Martens & Savatenalinton (2011). The species is here moved back to Ramotha as in Martens (1992).
Meisch, Claude +2 more
openaire +1 more source
(12) Ramotha crassa (Klie, 1929) One of us (KM) checked old notes and is no longer convinced that Strandesia crassa Klie, 1939 belongs to Bradleystrandesia as in Martens & Savatenalinton (2011). The species is here moved back to Ramotha as in Martens (1992).
Meisch, Claude +2 more
openaire +1 more source
2020
Published as part of Cubillos, Claudio & Vera, Alejandro, 2020, Comparative morphology of the eggs from the eight species in the genus Agathemera Stål (Insecta: Phasmatodea), through phylogenetic comparative method approach, pp.
Cubillos, Claudio, Vera, Alejandro
openaire +1 more source
Published as part of Cubillos, Claudio & Vera, Alejandro, 2020, Comparative morphology of the eggs from the eight species in the genus Agathemera Stål (Insecta: Phasmatodea), through phylogenetic comparative method approach, pp.
Cubillos, Claudio, Vera, Alejandro
openaire +1 more source
2018
Published as part of Appolloni, Massimo, Smriglio, Carlo, Amati, Bruno, Lugliè, Lorenzo, Nofroni, Italo, Tringali, Lionello P., Mariottini, Paolo & Oliverio, Marco, 2018, Catalogue of the primary types of marine molluscan taxa described by Tommaso Allery Di Maria, Marquis of Monterosato, deposited in the Museo Civico di Zoologia, Roma, pp.
Appolloni, Massimo +7 more
openaire +1 more source
Published as part of Appolloni, Massimo, Smriglio, Carlo, Amati, Bruno, Lugliè, Lorenzo, Nofroni, Italo, Tringali, Lionello P., Mariottini, Paolo & Oliverio, Marco, 2018, Catalogue of the primary types of marine molluscan taxa described by Tommaso Allery Di Maria, Marquis of Monterosato, deposited in the Museo Civico di Zoologia, Roma, pp.
Appolloni, Massimo +7 more
openaire +1 more source
Conidiation in Neurospora crassa
Archiv f�r Mikrobiologie, 1971Conidiation in Neurospora crassa has been studied in vivo by time-lapse microphotography and shown to be most generally (in aerial, “dry” conditions) a budding-fission process. Such a two-phase process is characterized by an initial basifugal budding of proconidial elements which are then secondarily separated as maturing conidia by interconidial septa.
G, Turian, D E, Bianchi
openaire +2 more sources
Archives of Biochemistry and Biophysics, 1957
Abstract Uricase from Neurospora crassa has been purified 400-fold. The properties of this enzyme are similar to those of the animal uricases except that it is more soluble at low pH values. Addition of uric acid to the growth medium causes a twofold increase in the amount of enzyme. One atom of oxygen is consumed per mole of uric acid decomposed in
R C, GREENE, H K, MITCHELL
openaire +2 more sources
Abstract Uricase from Neurospora crassa has been purified 400-fold. The properties of this enzyme are similar to those of the animal uricases except that it is more soluble at low pH values. Addition of uric acid to the growth medium causes a twofold increase in the amount of enzyme. One atom of oxygen is consumed per mole of uric acid decomposed in
R C, GREENE, H K, MITCHELL
openaire +2 more sources
Conidiation of Neurospora crassa
Nature, 1966THE vegetative mycelium of Neurospora crassa can, during the course of its development, successively initiate three types of reproductive structure. These are the macroconidia, microcoriidia and ascogonia which develop into protoperithecia and, after fertilization, into perithecia with ascospores. Problems of macroconidial differentiation (conidiation)
G, Turian, N, Matikian
openaire +2 more sources