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Journal articles on the topic 'Haliclona'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Abdo, D. A., J. I. McDonald, E. S. Harvey, J. Fromont, and G. A. Kendrick. "Neighbour and environmental influences on the growth patterns of two temperate Haliclonid sponges." Marine and Freshwater Research 59, no. 4 (2008): 304. http://dx.doi.org/10.1071/mf07165.

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Understanding the growth dynamics of an organism is central to understanding its ecology and biology. Sponges often dominate many subtidal habitats, however, determining their growth dynamics is often difficult owing to the plastic and amorphous morphologies that occur in many species. Two sympatric Haliclonid sponge species were examined using a novel photogrammetric technique to understand how environmental and competitive influences affect their growth. Sponges of both species were tagged and monitored over a 14-month period. Haliclona sp. 1 (green Haliclona) showed little variation in growth compared with Haliclona sp. 2 (brown Haliclona), which had a significant seasonal growth pattern. Both green and brown Haliclona grew a significant amount over the period of study (green Haliclona: 3.4% month–1; brown Haliclona: 6.0% month–1 (with neighbours) and 4.1% month–1 (without neighbours)). In both species, growth was not significantly influenced by competition from neighbours; rather, neighbouring organisms appeared to provide protection from adverse environmental conditions. The growth dynamics of both species have important implications for the maintenance of both species populations, particularly given the important habitat they provide for other organisms, and their potential exploitation for the supply of bioactive metabolites.
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2

KIM, HYUNG JUNE, SANG-HUI LEE, and DONG WON KANG. "New species of the Genus Haliclona (Haplosclerida: Chalinidae) from Korea." Zootaxa 4347, no. 1 (November 10, 2017): 181. http://dx.doi.org/10.11646/zootaxa.4347.1.11.

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Two new marine sponges, Haliclona ieoensis sp. nov. and Haliclona sumenyoensis sp. nov. from the south Korea are described. Morphologically distinct from each other, both species are assigned to the genus Haliclona subgenus Haliclona. Haliclona ieoensis sp. nov. individuals are thickly encrusting to massive, beige colour and have small oscules flush on surface. Haliclona sumenyoesis sp. nov. individuals have a cylindrical tube with flexible stalk morphology, ivory colour, and large oscules. The description of these two new species brings the species of Haliclona (Haliclona) in Korea to five.
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3

KIM, HYUNG JUNE, and DONG WON KANG. "Two New Species of the Genus Haliclona from Korea." Zootaxa 4890, no. 2 (December 2, 2020): 289–95. http://dx.doi.org/10.11646/zootaxa.4890.2.10.

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Two new marine sponges, Haliclona (Reniera) oceanus sp. nov. and Haliclona (Reniera) juckdoensis sp. nov. of the family Chalinidae were collected from Ieodo Ocean Research Station, Ulleung-do Island, Korea by SCUBA in 2016-2017. Morphologically distinct from each other, both species are assigned to the genus Haliclona subgenus Reniera. Haliclona (Reniera) oceanus sp. nov. is similar to H. (H.) ieoensis Kim et al. 2017 in shape, habitat, growth form, but it differs in color, ectosomal, choanosomal skeleton and spicule size. Haliclona (Reniera) juckdoensis sp. nov. is similar to H. (R.) hongdoensis Kang and Sim 2007 in habitat, ectosomal, choansomal skeleton but it differs in spicule size.
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4

Fattorusso, Ernesto, Patrizia Ciminiello, Valeria Costantino, Silvana Magno, and Alfonso Mangoni. "Haliclonol, a New Tetrahydropyranone from the Caribbean Sponge Haliclona hogarthi." HETEROCYCLES 34, no. 4 (1992): 765. http://dx.doi.org/10.3987/com-91-5961.

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5

SIM-SMITH, CARINA, CLEVELAND HICKMAN, JR, and MICHELLE KELLY. "New shallow-water sponges (Porifera) from the Galápagos Islands." Zootaxa 5012, no. 1 (August 2, 2021): 1–71. http://dx.doi.org/10.11646/zootaxa.5012.1.1.

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Twenty-five new species of shallow-water sponges are described from the Galápagos Islands, a province of Ecuador in the eastern Pacific Ocean. Sponges were photographed in situ and collected by SCUBA divers between 2001 and 2004. New species include: Acanthancora equiformis sp. nov., Acanthella saladinorum sp. nov., Cacospongia hermanorum sp. nov., Cinachyrella solis sp. nov., Ciocalypta bustamanti sp. nov., Clathria (Microciona) stellata sp. nov., Clathrina andreusi sp. nov., Craniella lissi sp. nov., Dragmacidon raeae sp. nov., Dragmacidon hendersoni sp. nov., Haliclona (Haliclona) clairae sp. nov., Haliclona (Haliclona) dianae sp. nov., Haliclona (Reniera) oberi sp. nov., Haliclona (Soestella) spuma sp. nov., Haliclona (Soestella) roslynae sp. nov., Hemimycale harlequinus sp. nov., Hemimycale nathani sp. nov., Higginsia johannae sp. nov., Neopetrosia eructans sp. nov., Leucilla agitata sp. nov., Penares angeli sp. nov., Prosuberites vansoesti sp. nov., Suberea esmerelda sp. nov., Tethya annona sp. nov. and Tethya sorbetus sp. nov. In addition, three species have been recorded for the first time from the Galápagos Islands: Chalinula cf. molitba (De Laubenfels, 1949), Chelonaplysilla violacea (Von Lendenfeld, 1883) and Tedania (Tedania) tropicalis Aguilar-Camacho, Carballo & Cruz-Barraza, 2018. This paper represents a significant contribution to our knowledge of the Porifera of the Galápagos Islands.
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6

Elenkov, Ivaylo, Boryana Dragova, Stoitze Andreev, and Simeon Popov. "4α-Methyl Sterols from the Sponges Haliclona cinerea and Haliclona flavescens." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 118, no. 1 (September 1997): 155–57. http://dx.doi.org/10.1016/s0305-0491(97)00029-1.

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7

Zhu, Jiaying, Yang Liu, Zijun Liu, Hao Wang, and Huawei Zhang. "Bioactive Nitrogenous Secondary Metabolites from the Marine Sponge Genus Haliclona." Marine Drugs 17, no. 12 (December 3, 2019): 682. http://dx.doi.org/10.3390/md17120682.

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Marine sponge genus Haliclona, one of the most prolific sources of natural products, contains over 600 species but only a small part of them had been classified and chemically investigated. On the basis of extensive literature search, this review firstly summarizes 112 nitrogenous secondary metabolites from classified and unclassified Haliclona sponges as well as from their symbiotic microorganisms. Most of these substances have only been found in Haliclona sponges, and display diverse bioactive properties with potential applications in new drug discovery.
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8

Ode, Muhammad Fajrin, Muhammad Ramli, and Sahidin. "KAJIAN BIOAKTIVITAS ANTIBAKTERI DAN SENYAWA METABOLIT SEKUNDER SPONS LAUT Haliclona sp., DARI PERAIRAN TANJUNG TIRAM MORAMO UTARA, SULAWESI TENGGARA." Jurnal Sapa Laut (Jurnal Ilmu Kelautan) 4, no. 1 (May 16, 2019): 13. http://dx.doi.org/10.33772/jsl.v4i1.6803.

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Spons merupakan salah satu komponen organisme penyusun terumbu karang yang menghasilkan senyawa metabolit sekunder dan mempunyai potensi yang belum banyak dimanfaatkan. Penelitian ini bertujuan untuk mengidentifikasi senyawa metabolit sekunder dan bioaktivitas antibakteri ekstrak aseton spons Haliclona sp. terhadap tiga bakteri pathogen Salmonella typhi, Staphylococcus aureus dan Escherichia coli. Pengujian dan identifikasi senyawa metabolit sekunder dilakukan dengan menggunakan reagen (pereaksi). Sedangkan aktivitas antibakteri dilakukan dengan metode difusi cakram. Hasil penelitian menunjukkan bahwa ekstrak aseton spons Haliclona sp. teridentifikasi senyawa alkaloid, flavonoid, steroid, terpenoid, tannin (terkondensasi) dan saponin. Sedangkan kemampuan bioaktivitas antibakteri ekstrak aseton spons Haliclona sp. dikategorikan sedang terhadap bakteri S. typhi, dan dikategorikan lemah terhadap bakteri E. coli dan S. aureus. Ekstrak aseton dari spons Haliclona sp. menunjukkan potensi aktivitas inhibitor pertumbuhan bakteri patogen (antibakteri) terhadap S. typhi.Kata Kunci: Antibakteri, Senyawa Metabolit Sekunder, Spons.
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9

Schellenberg, Johannes, Hans-Jürgen Busse, Martin Hardt, Patrick Schubert, Thomas Wilke, Peter Kämpfer, and Stefanie P. Glaeser. "Winogradskyella haliclonae sp. nov., isolated from a marine sponge of the genus Haliclona." International Journal of Systematic and Evolutionary Microbiology 67, no. 12 (December 1, 2017): 4902–10. http://dx.doi.org/10.1099/ijsem.0.002192.

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10

CRUZ-BARRAZA, JOSÉ A., and JOSÉ L. CARBALLO. "A new species of Haliclona (Demospongiae: Haplosclerida) living in association with Geodia media Bowerbank (Mexican Pacific coast)." Zootaxa 1343, no. 1 (October 26, 2006): 43. http://dx.doi.org/10.11646/zootaxa.1343.1.2.

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Haliclona (Haliclona) sonorensis sp. nov. (Haplosclerida, Chalinidae) is described from different shallow water localities from the Mar de Cortés (Mexican Pacific coast). The new species is characterized by its thickly incrusting form, scarce and slightly elevated oscules, and pinkish violet color in life, in conjunction with internal characteristics such as an ectosomal skeleton formed by tangential isotropic unispicular reticulation and a regular choanosomal skeleton of unipaucispicular primary lines interconnected by unispicular secondary lines. Spicules are short and robust oxeas. Both the choanosomal skeleton and typical oxeas morphology are characteristic of the subgenus Haliclona. The new species has always been found growing in a mutualistic relationship with the sponge Geodia media Bowerbank, 1873.
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11

Schellenberg, Johannes, Hans-Jürgen Busse, Martin Hardt, Patrick Schubert, Thomas Wilke, Peter Kämpfer, and Stefanie P. Glaeser. "Proposal of Litorimonas haliclonae sp. nov., isolated from a marine sponge of the genus Haliclona." International Journal of Systematic and Evolutionary Microbiology 68, no. 3 (March 1, 2018): 835–43. http://dx.doi.org/10.1099/ijsem.0.002592.

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12

Timm, Christoph, Thorsten Mordhorst, and Matthias Köck. "Synthesis of 3-Alkyl Pyridinium Alkaloids from the Arctic Sponge Haliclona viscosa." Marine Drugs 8, no. 3 (March 5, 2010): 483–97. http://dx.doi.org/10.3390/md8030483.

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3-Alkyl pyridinium alkaloids (3-APAs) are common secondary metabolites in marine sponges of the order Haplosclerida. In recent years, our laboratory has isolated and synthesized several new members of this family such as haliclamines C–F, viscosamine, viscosaline and a cyclic monomer. All of them were isolated from the Arctic sponge Haliclona viscosa collected in Spitsbergen, Norway. In this article we report the syntheses of these secondary metabolites from Haliclona viscosa and related compounds and give a short overview of the bioactivity.
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13

Siska, Siska, Lani Puspita, and Nurhaty Purnama Sari. "STRUKTUR KOMUNITAS PORIFERA (SPONS) DI PERAIRAN PULAU LAYANG DAN PULAU CUKUS KELURAHANSEKANAKRAYA KOTA BATAM KEPULAUAN RIAU." SIMBIOSA 7, no. 2 (December 21, 2018): 109. http://dx.doi.org/10.33373/sim-bio.v7i2.1503.

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Penelitian ini bertujuan untuk mengetahui struktur komunitas Porifera (Spons) yang terdapat di kawasan perairan Pulau Layang dan Pulau Cukus. Pengambilan data dengan menggunakan metode transek garis dengan panjang transek 100 meter di setiap stasiun penelitian. Terdapat 6 spesies Porifera yang ditemukan di Pulau Layang yaitu: Axinella damicornis, Aaptos subertoides, Haliclona sp., Haliclona cymaeformis, Spheciospongia vagabunda, Callyspongia (Cladochalina) diffusa, dengan nilai indeks keanekaragaman Ĥ = 1.605, indeks keseragaman E = 0.896, dan indeks dominansi D = 0.223. Sedangkan di Pulau Cukus ditemukan 10 spesies Porifera yaitu: Agelas nsp., Aplysina sp., Aaptossubertoides, Haliclona sp., Spheciospongia cf. vagabunda, Pseudoceratina purpurea, Callyspongia (Cladochalina) diffusa, Aplysina lacunose, dan Dactylospongia elegans, dengan nilai indeks keanekaragaman Ĥ = 1.721, indeks keseragaman E = 0.747, dan indeks dominansi D = 0.150. Sedangkan untuk indeks kesamaan komunitas Porifera yang ditemukan pada perairan Pulau Layang dan Pulau Cukus memiliki kesamaan komunitas yang cukup tinggi dengan nilai 63%, artinya komunitas tersebut memiliki kemiripan spesies yang cukup sama. Spesies yang paling banyak ditemukan di setiap stasiun adalah Spheciospongia cf vagabunda, dari famili Clionaidae dan genus Spheciospongia.
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14

Putra, Masteria Yunovilsa, and Tri Aryono Hadi. "Chemical Composition, Antimicrobial, Cytotoxic and Antiplasmodial Activities of Three Sponges from Buton Islands, Indonesia." ILMU KELAUTAN: Indonesian Journal of Marine Sciences 22, no. 3 (August 22, 2017): 147. http://dx.doi.org/10.14710/ik.ijms.22.3.147-154.

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GC-MS analysis of the crude extracts of three different species of Indonesian marine sponges has been carried out for identification of bioactive compounds. The GC-MS analysis from Haliclona (Gellius) sp., Lamellodysidea herbacea, and Spheciospongia inconstans revealed the presence of 23, 21, 19 various compounds, respectively and mainly sterols and fatty acids. All the sponge species has been evaluated for antimicrobial activities, cytotoxicity using brine shrimp lethality bioassay and heme polymerization inhibitory activity assay for antiplasmodial activity. In this study, all the sponge species showed antimicrobial activities against at leastone of the test strains. Among them, the extract of sponge Lamellodysidea herbacea displayed activity against two Gram-positive bacteria (S. aureus and B. subtilis) and the Gram-negative bacteria V. cholerae, with inhibition zones of 10.3, 9.2 and 9.5 mm, respectively. The sponge Haliclona (Gellius) sp., showed significant activity against fungal pathogen C. albicans. The sponge Haliclona (Gellius) sp., displayed the ability to inhibit heme polymerization indicating an anti-Plasmodium function and also showed potent cytotoxic activity against the brine shrimp Artemia sp. Keywords: GC-MS analysis, antimicrobial, sponges,bioactive
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15

Seldes, A. M., J. Rovirosa, A. San Martín, and E. G. Gros. "Sterols from the sponge Haliclona chilensis." Comparative Biochemistry and Physiology Part B: Comparative Biochemistry 81, no. 1 (January 1985): 119–22. http://dx.doi.org/10.1016/0305-0491(85)90171-3.

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16

Khan, Shams Tabrez, Tomohiko Tamura, Motoki Takagi, and Kazuo Shin-ya. "Streptomyces tateyamensis sp. nov., Streptomyces marinus sp. nov. and Streptomyces haliclonae sp. nov., isolated from the marine sponge Haliclona sp." International Journal of Systematic and Evolutionary Microbiology 60, no. 12 (December 1, 2010): 2775–79. http://dx.doi.org/10.1099/ijs.0.019869-0.

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Three Gram-positive, NaCl-requiring actinobacteria were isolated from a marine sponge, Haliclona sp., collected from the coast of Tateyama City, Japan. Comparison of 16S rRNA gene sequences indicated that these strains represent novel members of the genus Streptomyces, exhibiting low 16S rRNA gene sequence similarities of 98.3–97.4 % with recognized members of the genus. The cell hydrolysates contained the LL-isomer of diaminopimelic acid and the predominant quinones were MK-9 (H6 and/or H8). The DNA G+C contents were in the range 72–75 mol%. A polyphasic study of the strains and comparison of the characters with related species of the genus show that these strains represent three novel species of the genus Streptomyces. Therefore, the names Streptomyces tateyamensis sp. nov., Streptomyces haliclonae sp. nov. and Streptomyces marinus sp. nov. are proposed for strains Sp080513SC-30T (=NBRC 105048T =DSM 41969T), Sp080513SC-31T (=NBRC 105049T =DSM 41970T) and Sp080513GE-26T (=NBRC 105047T =DSM 41968T), respectively.
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17

Bispo, André, Monica Dorigo Correia, and Eduardo Hajdu. "Two new shallow-water species ofHaliclonafrom north-eastern Brazil (Demospongiae: Haplosclerida: Chalinidae)." Journal of the Marine Biological Association of the United Kingdom 96, no. 2 (March 31, 2014): 237–49. http://dx.doi.org/10.1017/s0025315414000344.

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Haliclonais an unusually species-rich genus in Porifera, with more than 400 species described. In spite of many subgenera used in the taxonomic housekeeping of these sponges, over half of them remain unassigned to a subgenus, thus encouraging a wide range of redescriptions and taxonomic revisions of materials from all around the world. In this paper, we describe two newHaliclonaspp. collected at Pernambuco, Alagoas and Bahia States (north-eastern Brazil, between 08°46′S and 13°56′S).Haliclona(Reniera)chlorillasp. nov. is a dark green or black coloured, delicately-branched species; andHaliclona(Soestella)peixinhoaesp. nov., a beige-coloured, tubular species, where tubes frequently bear large thorns and possess a conspicuous sub-superficial meandering reticulation. These species highlight the importance of includingex-situcollections in compiling baseline data, as both were already present in scientific collections by the 1980s and 1990s.
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18

Wang, Bin, Junde Dong, Xuefeng Zhou, Kyung Jin Lee, Riming Huang, Si Zhang, and Yonghong Liu. "Nucleosides from the Marine Sponge Haliclona sp." Zeitschrift für Naturforschung C 64, no. 1-2 (June 1, 2009): 143–48. http://dx.doi.org/10.1515/znc-2009-1-223.

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Three known nucleosides were isolated from the sponge Haliclona sp. The structures were established on the basis of NMR data and comparison with those reported, and chemotaxonomic relationships of the sponge nucleosides were discussed.
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19

Wattanadilok, Rawiwan, Pichan Sawangwong, Cátia Rodrigues, Honorina Cidade, Madalena Pinto, Eugenia Pinto, Artur Silva, and Anake Kijjoa. "Antifungal Activity Evaluation of the Constituents of Haliclona baeri and Haliclona cymaeformis, Collected from the Gulf of Thailand." Marine Drugs 5, no. 2 (June 25, 2007): 40–51. http://dx.doi.org/10.3390/md502040.

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20

KOMAI, TOMOYUKI, and ISAMU ITOU. "A new species of the pontoniine shrimp genus Onycocaris Nobili, 1904 (Crustacea: Decapoda: Caridea: Palaemonidae) from Sagami Bay, central Japan." Zootaxa 3440, no. 1 (August 27, 2012): 50. http://dx.doi.org/10.11646/zootaxa.3440.1.2.

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The pontoniine shrimp genus Onycocaris Nobili, 1904 currently contains 18 species, all known from the Indo-WestPacific. In this study, a new species of the genus, O. hayamaensis, is described and illustrated on the basis of fourovigerous female and three male specimens collected from Sagami Bay, central Japan, at shallow subtidal depths of5–6 m. The specimens lived in internal cavities of an unidentified species of a haliclonid sponge, Haliclona sp. Thisnew species is referred to the O. quadratophthalma (Balss, 1921) species group, represented by four species, i.e., O.balssi Bruce, 2011, O. fujinoi Bruce, 2011, O. quadratophthalma, and O. trullata Bruce, 1978. Differentiatingcharacters between the new species and the latter four species are discussed. The present new species exhibits strongsexual dimorphism in the second pereopods and heterochaely in the male second pereopods, though these traits are notfully documented in some of other congeneric species. Diagnostic characters derived from the second pereopods should be treated carefully.
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21

Wang, Bin, Yaocai Lin, Yinning Chen, and Riming Huang. "Two New Thyminenol Derivatives from the Marine Sponge Haliclona sp." Natural Product Communications 9, no. 4 (April 2014): 1934578X1400900. http://dx.doi.org/10.1177/1934578x1400900409.

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Investigation of the marine sponge Haliclona sp. led to the isolation of two new thyminenol derivatives, named cis-thyminenol (1) and trans-thyminenol (2). The structures of the new isolates were elucidated on the basis of extensive spectroscopic analysis.
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22

Zhang, Chi, Keda Zhang, Jialiang Zhang, Huilong Ou, Jiwen Duan, Saiman Zhang, Dexiang Wang, Samir Mitragotri, and Ming Chen. "Skin delivery of hyaluronic acid by the combined use of sponge spicules and flexible liposomes." Biomaterials Science 7, no. 4 (2019): 1299–310. http://dx.doi.org/10.1039/c8bm01555d.

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We demonstrated that the topical combined use of sponge Haliclona sp. spicules (SHS) and flexible liposomes (FL), referred to as SFLS (SHS-Flexible Liposomes combined System), can result in synergy to improve the skin absorption and deposition of hyaluronic acid (HA).
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23

Lakshmi, V., S. K. Mishra, S. Srivastava, A. Chaturvedi, M. N. Srivastava, and P. K. Shukla. "Antifungal activity of marine sponge Haliclona exigua (Krikpatrick)." Journal de Mycologie Médicale 20, no. 1 (March 2010): 31–35. http://dx.doi.org/10.1016/j.mycmed.2009.12.001.

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Elenkov, Ivaylo, Simeon Popov, and Stoitze Andreev. "Sterols from two Black Sea sponges (Haliclona Sp.)." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 123, no. 4 (August 1999): 357–60. http://dx.doi.org/10.1016/s0305-0491(99)00079-6.

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Venkateswarlu, Y., M. Venkata Rami Reddy, and J. Venkateswara Rao. "Bis-1-oxaquinolizidines from the Sponge Haliclona exigua." Journal of Natural Products 57, no. 9 (September 1994): 1283–85. http://dx.doi.org/10.1021/np50111a017.

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26

Ramirez, Diana L., and C. H. Bigger. "4.17 Alloimmunity in a marine sponge, Haliclona aquaeductus." Developmental & Comparative Immunology 13, no. 4 (September 1989): 390–91. http://dx.doi.org/10.1016/0145-305x(89)90107-9.

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27

Campos, Maurício, Beatriz Mothes, and Inga L. Veitenheimer Mendes. "Antarctic sponges (Porifera, Demospongiae) of the South Shetland Islands and vicinity: part I. Spirophorida, Astrophorida, Hadromerida, Halichondrida and Haplosclerida." Revista Brasileira de Zoologia 24, no. 3 (2007): 687–708. http://dx.doi.org/10.1590/s0101-81752007000300021.

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The aim of this work is to redescribe 11 species of sponges collected through the Brazilian Antarctic Program (PROANTAR), at the South Shetland Islands and vicinity. New information is provided on the Antarctic sponge fauna, in regard to species richness and the geographical and bathymetric distributions of identified species. The following species were identified and are here illustrated and fully described: Cinachyra antarctica (Carter, 1872), Cinachyra barbata Sollas, 1886, Craniella leptoderma (Sollas, 1886), Tethyopsis longispinum (Lendenfeld, 1907), Polymastia invaginata Kirkpatrick, 1907, Homaxinella balfourensis (Ridley & Dendy, 1886), Suberites montiniger Carter, 1880, Halichondria (Eumastia) attenuata (Topsent, 1915), Haliclona (Soestella) chilensis (Thiele, 1905), Hemigellius bidens (Topsent, 1901) and Calyx arcuarius (Topsent, 1913). Two new records are given for the Antarctic continent: Halichondria (Eumastia) attenuata (Topsent, 1915) and Haliclona (Soestella) chilensis (Thiele, 1905). Tethyopsis longispinum (Lendenfeld, 1907), Suberites montiniger Carter, 1880 and Hemigellius bidens (Topsent, 1901) represent the first records for this sector of the continent. Bathymetric data are extended for T. longispinum and H. attenuata.
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Murniasih, Tutik, Masteria Yunovilsa Putra, and Tri Aryono Hadi. "THE ANTIBACTERIAL EVALUATION OF HALICLONA ASSOCIATED BACTERIA AND THE RELATING COMPOUNDS DERIVED FROM THE HOST." Asian Journal of Pharmaceutical and Clinical Research 11, no. 7 (July 7, 2018): 412. http://dx.doi.org/10.22159/ajpcr.2018.v11i7.25510.

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Objective: The objective of this study was to investigate the active compounds derived from Haliclona sp. associated bacteria collected from Untung Jawa Island, Jakarta.Methods: The bacterial isolation, screening of antibacterial activity, purification, and prediction of potential compounds using liquid chromatography– mass spectroscopy/mass spectroscopy (LC–MS/MS) as well as 16S rDNA bacterial characterization were conducted.Results: The potential extract of bacterial strain UJ.17.10-4 showed the highest anti-Gram-positive bacteria. The 16S rDNA gene of this strain had 99% similarity with the actinobacteria Agromyces tropicus. Chemical separation of supernatant extract yielded 13 potent fractions. Identification of antibacterial compounds contained in active fractions using LC-MS/MS were halistanol sulphate C([M+H]+:703), cyclic bis-1,3- dialkylpyridinium([M+H]+: 213.72). In previous research reported that these compounds were isolated from Haliclona sponge and showed anticancer activity.Conclusion: This result supported the ideas that A. tropicus plays an important role in synthesizing, halistanol sulfate C, haliclorensin, and cyclic bis- 1,3-dialkylpyridinium metabolite derived from the host.
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Redmond, Niamh E., and Grace P. McCormack. "Ribosomal internal transcribed spacer regions are not suitable for intra- or inter-specific phylogeny reconstruction in haplosclerid sponges (Porifera: Demospongiae)." Journal of the Marine Biological Association of the United Kingdom 89, no. 6 (June 3, 2009): 1251–56. http://dx.doi.org/10.1017/s0025315409000411.

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Sequences of the ribosomal internal transcribed spacer regions 1 and 2 (ITS-1 and ITS-2) were employed to investigate relationships between putatively very closely related species of marine haplosclerids and to investigate the species status of Haliclona cinerea. Results indicate that intra-genomic and intra-specific levels of diversity are equivalent, and sequences from multiple clones from a number of individuals of a single species could not be separated on phylogenetic trees. As a result, the ITS regions are not suitable markers for population level studies in marine haplosclerids. Sequences of these regions were highly species specific, and large differences were found between species. ITS sequences from three Callyspongia and three Haliclona species could not be aligned successfully and therefore this locus could not be used to investigate relationships between these putative close relatives. However, ITS sequences retrieved from one H. cinerea were very different from sequences generated from other H. cinerea individuals indicating that this species comprises more than one taxon.
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Lhullier, C., M. I. G. Moritz, E. O. Tabalipa, F. N. Sardá, N. F. Z. Schneider, M. H. Moraes, L. Constantino, et al. "Biological activities of marine invertebrates extracts from the northeast brazilian coast." Brazilian Journal of Biology 80, no. 2 (June 2020): 393–404. http://dx.doi.org/10.1590/1519-6984.213678.

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Abstract This paper reports the in vitro antiproliferative effects, antiprotozoal, anti-herpes and antimicrobial activities of 32 organic extracts of 14 marine sponges and 14 corals collected in northeast Brazilian coast. The ethanolic extracts of the sponges Amphimedon compressa and Tedania ignis, and the acetone extract of Dysidea sp. showed relevant results concerning the antiproliferative effects against A549, HCT-8, and PC-3 cell lines by sulforhodamine B assay, but also low specificity. Concerning the antiprotozoal screening, the ethanolic extract of Amphimedon compressa and the acetone and ethanolic extracts of Dysidea sp. were the most active against Leishmania amazonensis and Trypanosoma cruzi expressing β-galactosidase in THP-1 cells. In the preliminary anti-HSV-1 (KOS strain) screening, the ethanolic extracts of the sponges Amphimedon compressa, Haliclona sp. and Chondrosia collectrix inhibited viral replication by more than 50%. The most promising anti-herpes results were observed for the ethanolic extract of Haliclona sp. showing high selective indices against HSV-1, KOS and 29R strains (SI> 50 and >79, respectively), and HSV-2, 333 strain (IS>108). The results of the antibacterial screening indicated that only the ethanolic extract of Amphimedon compressa exhibited a weak activity against Enterococcus faecalis, Pseudomonas aeruginosa and Escherichia coli by the disk diffusion method. In view of these results, the extracts of Amphimedon compressa, Tedania ignis and Dysidea sp. were selected for further studies aiming the isolation and identification of the bioactive compounds with antiproliferative and/or antiprotozoal activities. The relevant anti-herpes activity of the ethanolic extract of Haliclona sp. also deserves special attention, and will be further investigated.
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Saroinsong, Megawati S., Febby E. F. Kandou, Adelfia Papu, and Marina F. O. Singkoh. "Uji Daya Hambat Ekstrak Metanol Beberapa Jenis Porifera Terhadap Bakteri Escherichia coli dan Staphylococcus aureus." Jurnal MIPA 3, no. 2 (August 13, 2014): 129. http://dx.doi.org/10.35799/jm.3.2.2014.5989.

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Penelitian ini bertujuan untuk menguji daya hambat dari ekstrak metanol beberapa jenis porifera terhadap pertumbuhan bakteri E. coli dan S. aureus. Pengujian aktivitas antibakteri menggunakan metode Kirby-Bauer, yaitu dilakukan dengan mengukur zona hambat di sekeliling cakram kertas. Ekstrak Haliclona sp dapat menghambat pertumbuhan S. aureus pada konsentrasi ekstrak 30%, 60% dan 90% dengan hasil pengukuran diameter zona hambat 13.50 mm, 20.67 mm dan 27.33 mm; serta menghambat pertumbuhan E. coli dengan diameter zona hambat 10.08 mm, 12.83 mm dan 14.17 mm. Daya hambat ekstrak Agelas sp terhadap S. aureus menunjukkan diameter zona hambat 8.33 mm dan hanya menunjukkan pada konsentrasi ekstrak 90%, sementara daya hambat ekstrak Agelas sp pada konsentrasi 30%, 60% dan 90% terhadap E. coli menunjukkan diameter zona hambat sebesar 7.67 mm, 10.17 mm dan 14.17 mm. Daya hambat Spheciospongia sp terhadap S. aureus dan E. coli hanya terlihat pada konsentrasi ekstrak sebesar 90% dengan diameter zona hambat adalah 8.42 mm dan 8.75 mm. Berdasarkan hasil yang diperoleh, dapat disimpulkan bahwa ekstrak Haliclona sp memiliki potensi aktivitas antibakteri yang dapat digunakan sebagai bahan dasar pembuatan obat antibiotik.This research aimed to test the inhibition capabilities of methanol extract from several kinds of Porifera on Escherichia coli and Staphylococcus aureus growth. The antibacterial activity test using the Kirby-Bauer method, which delivered by measuring the inhibition zone around paper disc. The extract of Haliclona sp can inhibit the S. aureus growth at 30%, 60% and 90% of extracts concentration with the measurement of inhibition zone diameters are 13.50 mm, 20.67 mm and 27.33 mm; also inhibit the E. coli growth with inhibition zone diameters are 10.08 mm, 12.83 mm and 14.17 mm. The inhibition capability of Agelas sp extract on S. aureus shows that the inhibition zone diameters is 8.83 mm and only appear at 90% of extracts concentration, meanwhile the inhibition capability of Agelas sp extract at concentration 30%, 60% and 90% on E. coli shows diameters of inhibition zone are 7.67 mm, 10.17 mm and 14.17 mm. The inhibition capability of Spheciospongia sp on S. aureus and E. coli only occurred at 90% of extracts concentration with inhibition zone diameters 8.42 mm and 8.75 mm. Based on the results, it can be assumed that extracts of Haliclona sp has a potential antibacterial activity that can be used as a basic ingredients for antibiotic medicine.
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van Soest, Rob W. M., Mario J. de Kluijver, Peter H. van Bragt, Marco Faasse, Reindert Nijland, Elly J. Beglinger, Wallie H. de Weerdt, and Nicole J. de Voogd. "Sponge invaders in Dutch coastal waters." Journal of the Marine Biological Association of the United Kingdom 87, no. 6 (December 2007): 1733–48. http://dx.doi.org/10.1017/s002531540705816x.

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Continuous monitoring by scientists and volunteers of the Biological Working Group of the Dutch SubAqua Union and the ‘Anemoon’ Foundation over the past four years, yielded a surprising six new records of sponges for Dutch coastal waters. Oscarella lobularis, Celtodoryx girardae, Suberites virgultosus, Haliclona (Haliclona) simulans, Halisarca aff. dujardini, and a species identified as Leucosolenia somesii were unknown from Dutch coastal waters before 2000. The latter is a giant calcareous sponge, seemingly belonging to the common Leucosolenia variabilis, but here assumed to be an invader as well, as it has spicular characters well outside the variation found in the majority of Dutch L. variabilis specimens. It is likely a member of a ‘forgotten’ species, L. somesii. Habit photographs, SEM images of the spicules, and for O. lobularis and H. aff. dujardini, photographs of histological sections are provided to substantiate these new records. With the exception of C. girardae, most of the species resemble previously described widespread north-east Atlantic species, occurring in the area to the south and west of the Netherlands, so it is assumed pending future genetic research that at least several of the invaders comprise range extensions related to rising winter temperatures. Possibly, recent shellfish imports may be an additional causal agent. We also report the occurrence of unprecedented spicular deviations observed in three sponge species commonly occurring in Dutch waters, Halichondria (Halichondria) panicea, Hymeniacidon perlevis and Haliclona (Soestella) xena, which grew in small inland water bodies. Possibly, the limited space in these inland waters with possible stress factors for sponges such as reduced water exchange, and deviating chemistry, have caused the sponges to form stunted growth in spicules varying from rhabds with rounded endings to silica spheroids. We provide an updated list of sponges found in Dutch waters and a list of suspected or proven invaders of Dutch waters.
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Lee, Yoonyeong, Kyoung Hwa Jang, Ju-eun Jeon, Woo-Young Yang, Chung J. Sim, Ki-Bong Oh, and Jongheon Shin. "Cyclic Bis-1,3-dialkylpyridiniums from the Sponge Haliclona sp." Marine Drugs 10, no. 12 (September 24, 2012): 2126–37. http://dx.doi.org/10.3390/md10092126.

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Cheng, Zhong-Bin, Han Xiao, Cheng-Qi Fan, Ya-Nan Lu, Ge Zhang, and Sheng Yin. "Bioactive polyhydroxylated sterols from the marine sponge Haliclona crassiloba." Steroids 78, no. 14 (December 2013): 1353–58. http://dx.doi.org/10.1016/j.steroids.2013.10.004.

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35

Park, Taeseong, Tayyab Ahmad Mansoor, Pramod Bapurao Shinde, Baoquan Bao, Jongki Hong, and Jee Hyung Jung. "New Cerebrosides from a Marine Sponge Haliclona (Reniera) sp." CHEMICAL & PHARMACEUTICAL BULLETIN 57, no. 1 (2009): 106–11. http://dx.doi.org/10.1248/cpb.57.106.

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36

Fahy, Eoin, Tadeusz F. Molinski, Mary Kay Harper, Brian W. Sullivan, D. John Faulkner, Laszlo Parkanyi, and Jon Clardy. "Haliclonadiamine, an antimicrobial alkaloid from the sponge Haliclona SP." Tetrahedron Letters 29, no. 28 (January 1988): 3427–28. http://dx.doi.org/10.1016/0040-4039(88)85180-3.

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37

Erickson, Karen L., John A. Beutler, John H. Cardellina, and Michael R. Boyd. "Rottnestol, a new hemiketal from the sponge Haliclona sp." Tetrahedron 51, no. 44 (October 1995): 11953–58. http://dx.doi.org/10.1016/0040-4020(95)00761-v.

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38

Sevcik, C., M. Ramos, and G. D'Suze. "Comparative toxinology of Venezuelan sponges from the genus Haliclona." Toxicon 34, no. 3 (March 1996): 300. http://dx.doi.org/10.1016/0041-0101(96)80900-7.

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39

KELLY, MICHELLE, and ASHLEY A. ROWDEN. "New sponge species from hydrothermal vent and cold seep sites off New Zealand." Zootaxa 4576, no. 3 (April 3, 2019): 401. http://dx.doi.org/10.11646/zootaxa.4576.3.1.

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Three new sponge species in the demosponge families Chalinidae Gray and Suberitidae Schmidt are described from the Calypso hydrothermal vent field in the Bay of Plenty, and one species from seep sites along the Hikurangi Margin, to the east of the North Island, New Zealand. The Calypso hydrothermal vent field is dominated by the chalinid sponge Haliclona (Soestella) battershilli sp. nov., a large, cream-coloured, finely branched species, and the less common H. (Halichoclona) sonnae sp. nov., an encrusting, translucent white, cushion-shaped species. The third species, the suberitid sponge Protosuberites novaezelandiae sp. nov., forms encrustations with digitate projections. Haliclona (Halichoclona) sonnae sp. nov. and Protosuberites novaezelandiae sp. nov. represent new subgenus and genus records, respectively, for New Zealand waters. The methanotrophic suberitid sponge, Pseudosuberites thurberi sp. nov., is found at many of the cold seep sites on the Hikurangi Margin where it forms extensive, encrusting to digitate mats. The description of these species provides a basis for the future study of the ecology of sponges that are apparently endemic to vent and seep habitats off New Zealand.
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40

UGALDE, DIANA, JULIO C. C. FERNANDEZ, PATRICIA GÓMEZ, GISELE LÔBO-HAJDU, and NUNO SIMÕES. "An update on the diversity of marine sponges in the southern gulf of Mexico coral reefs." Zootaxa 5031, no. 1 (September 3, 2021): 1–112. http://dx.doi.org/10.11646/zootaxa.5031.1.1.

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Until now, 127 species of marine sponges have been recorded in the southern Gulf of Mexico (SGoM). In this study, we describe the sponge fauna recorded on 16 coral reefs of the SGoM, defined as the Mexican waters of the Gulf of Mexico (GoM), during a period from 2005 to 2019. We report 80 sponge species, including 34 first geographic records for the southern GoM region. The latter are fully described and illustrated, taking into account 24 that represent new records for the GoM: Agelas conifera, Agelas sventres, Agelas wiedenmayeri, Prosuberites carriebowensis, Desmanthus meandroides, Cliona aprica, Cliona dioryssa, Placospongia ruetzleri, Haliclona (Gellius) megasclera, Haliclona (Reniera) aff. portroyalensis, Neopetrosia proxima, Xestospongia arenosa, Calyx podatypa, Shiphonodictyon xamaycaense, Acarnus innominatus, Iotrochota arenosa, Polymastia tenax, Svenzea cristinae, Svenzea flava, Svenzea tubulosa, Svenzea zeai, Timea stenosclera, Stellettinopsis megastylifera, Suberea flavolivescens. The present work highlights the understimated and remarkable diversity of reef-associated sponges within the Campeche Bank Coral reef systems. Present work data was compiled with existing published information to produce an updated list of 161 known sponges in the southern GoM.
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Schmidt, Gesine, Christoph Timm, and Matthias Köck. "Haliclocyclin C, a New Monomeric 3-Alkyl Pyridinium Alkaloid from the Arctic Marine Sponge Haliclona viscosa." Zeitschrift für Naturforschung B 66, no. 7 (July 1, 2011): 745–48. http://dx.doi.org/10.1515/znb-2011-0717.

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For the first time, the macrocyclic monomeric 3-alkyl pyridinium alkaloid with an alkyl chain of 13 methylene groups, haliclocyclin C (1), could be identified from a natural source in the crude extract of the Arctic sponge Haliclona viscosa. Structure elucidation was carried out by comparison of the natural product with the corresponding synthetic compound.
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42

Cheng, Tzi Him, Jasnizat Saidin, Muhd Danish-Daniel, Han Ming Gan, Mohd Noor Mat Isa, Mohd Faizal Abu Bakar, and Noraznawati Ismail. "Genome Sequence of Serratia marcescens subsp. sakuensis Strain K27, a Marine Bacterium Isolated from Sponge (Haliclona amboinensis)." Genome Announcements 6, no. 6 (February 8, 2018): e00022-18. http://dx.doi.org/10.1128/genomea.00022-18.

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ABSTRACTSerratia marcescens subsp. sakuensis strain K27 was isolated from sponge (Haliclona amboinensis). The genome of this strain consists of 5,325,727 bp, with 5,140 open reading frames (ORFs), 3 rRNAs, and 67 tRNAs. It contains genes for the production of amylases, lipases, and proteases. Gene clusters for the biosynthesis of nonribosomal peptides and thiopeptide were also identified.
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DINN, CURTIS. "A new species of Haliclona (Flagellia) Van Soest, 2017 (Porifera, Demospongiae, Heteroscleromorpha) from the Gulf of St. Lawrence, Canada." Zootaxa 4778, no. 2 (May 14, 2020): 391–95. http://dx.doi.org/10.11646/zootaxa.4778.2.10.

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Haliclona (Flagellia) Van Soest, 2017 is a recently erected subgenus characterized by the presence of flagellosigma microscleres which are often distinctive between species (Van Soest 2017). Members of the taxon also have normal sigmas within a confused skeleton formed by oxea megascleres. The subgenus has a global distribution and contains 10 species (Van Soest et al. 2019). A large and abundant new species collected throughout the southern Gulf of St. Lawrence is characterized by thick and abnormally shaped flagellosigmas, two sizes of oxea, and abundant normal sigmas. Lambe (1896) previously reported Haliclona (Flagellia) porosa (Fristedt, 1887) from the Gulf of St. Lawrence, and the species is known to occur in nearby Arctic waters (Fristedt 1887; Lundbeck 1902; Hentschel 1916; Koltun 1959, 1966; Van Soest 2017; Dinn & Leys 2018). However, H. (F.) porosa is characterized by the presence of very few normal sigmas and no thick flagellosigmas. Type specimens were preserved in 95% ethanol and were deposited in the Atlantic Reference Centre (ARC) in St. Andrews, New Brunswick, Canada. The taxonomic identification was performed through spicule analysis using light and scanning electron microscopy, following methods described by Dinn et al. (2020).
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Williams, David E., Anne Steinø, Nicole J. de Voogd, A. Grant Mauk, and Raymond J. Andersen. "Halicloic Acids A and B Isolated from the Marine Sponge Haliclona sp. Collected in the Philippines Inhibit Indoleamine 2,3-Dioxygenase." Journal of Natural Products 75, no. 8 (August 7, 2012): 1451–58. http://dx.doi.org/10.1021/np300345j.

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45

Gunathilake, Varuni, Marco Bertolino, Giorgio Bavestrello, and Preethi Udagama. "Immunomodulatory Activity of the Marine Sponge, Haliclona (Soestella) sp. (Haplosclerida: Chalinidae), from Sri Lanka in Wistar Albino Rats: Immunosuppression and Th1-Skewed Cytokine Response." Journal of Immunology Research 2020 (November 12, 2020): 1–11. http://dx.doi.org/10.1155/2020/7281295.

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Natural secondary metabolites of sponges of the genus Haliclona are associated with an array of biological activity with therapeutic usage. We investigated the immunopharmacological properties of a presumably novel marine sponge species from Sri Lanka, Haliclona (Soestella) sp. Sponge material was collected from southern Sri Lanka by scuba diving. Sponge identification was based on spicule and skeleton morphology using light microscopy. Selected in vivo and ex vivo tests investigated nonfunctional and functional immunomodulatory activity of the Haliclona (Soestella) sp. crude extract (HSCE) in the Wistar rat model. Compared to the controls, rats orally gavaged daily for 14 consecutive days with 15 mg/kg dose of the HSCE manifested a significant reduction of immune cell counts of total WBCs (by 17%; p < 0.01 ), lymphocytes (38%), platelets (52%), splenocytes (20%), and bone marrow cells (BMC; 60%) ( p < 0.001 ), with a concurrent increase in the neutrophil : lymphocyte ratio ( p < 0.05 ); RBC counts abated by 53% ( p < 0.001 ). A significant reduction of the splenosomatic index was evident with the 10 and 15 mg/kg doses ( p < 0.001 ). Rat plasma TNF-α cytokine level was augmented by tenfold ( p < 0.001 ), IL-6 level by twofold ( p < 0.01 ) with the 15 mg/kg HSCE treatment, while IL-10 was detectable in rat plasma only with this treatment; the corresponding Th1 : Th2 cytokine ratio (TNF-α : IL-10) was indicative of an unequivocal Th1-skewed cytokine response ( p < 0.01 ). Ex vivo bone marrow cell and splenocyte proliferation were significantly and dose dependently impaired by HSCE ( I C 50 0.719 and 0.931 μg/mL, respectively; p < 0.05 ). Subacute toxicity testing established that HSCE was devoid of general toxic, hepatotoxic, and nephrotoxic effects. In conclusion, HSCE was orally active, nontoxic, and effectively suppressed nonfunctional and functional immunological parameters of Wistar rats, suggestive of the potential use of the HSCE as an immunosuppressant drug lead.
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Aratake, Satoe, Agus Trianto, Novriyandi Hanif, Nicole De Voogd, and Junichi Tanaka. "A New Polyunsaturated Brominated Fatty Acid from a Haliclona Sponge." Marine Drugs 7, no. 4 (November 2, 2009): 523–27. http://dx.doi.org/10.3390/md7040523.

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47

Nuzzo, Genoveffa, Maria Letizia Ciavatta, Guido Villani, Emiliano Manzo, Anna Zanfardino, Mario Varcamonti, and Margherita Gavagnin. "Fulvynes, antimicrobial polyoxygenated acetylenes from the Mediterranean sponge Haliclona fulva." Tetrahedron 68, no. 2 (January 2012): 754–60. http://dx.doi.org/10.1016/j.tet.2011.10.068.

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48

Sun, Ji-Zheng, Li-Gong Yao, Kao-Shan Chen, Hai-Li Liu, Guo-Rong Xin, and Yue-Wei Guo. "New Polyunsaturated Amino Ketones from a Guangxi Sponge Haliclona sp." Helvetica Chimica Acta 93, no. 6 (June 15, 2010): 1199–203. http://dx.doi.org/10.1002/hlca.200900357.

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49

Wang, Bin, Heying Zhou, Chenghai Gao, and Riming Huang. "Two New Phthalate Derivatives from the Marine Sponge Haliclona sp." Chemistry of Natural Compounds 54, no. 4 (July 2018): 726–28. http://dx.doi.org/10.1007/s10600-018-2455-3.

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50

Trianto, Agus, Idam Hermawan, Nicole Joy de Voogd, and Junichi Tanaka. "Halioxepine, a New Meroditerpene from an Indonesian Sponge Haliclona sp." CHEMICAL & PHARMACEUTICAL BULLETIN 59, no. 10 (2011): 1311–13. http://dx.doi.org/10.1248/cpb.59.1311.

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