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Published: 4 June 2021
Last updated: 11 February 2022

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1

SMITH, GIDEON F. "Nomenclatural novelties published in Kalanchoe (Crassulaceae subfam. Kalanchooidee) by Boiteau and Allorge-Boiteau in 1995." Phytotaxa 496, no. 2 (April 12, 2021): 201–7. http://dx.doi.org/10.11646/phytotaxa.496.2.10.

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In a taxonomic treatment of Kalanchoe Adanson (1763: 248) (Crassulaceae subfam. Kalanchooideae) in Madagascar, 13 nomenclatural novelties at the ranks of species, variety, and forma were validly published by Boiteau & Allorge-Boiteau (1995). In three cases that have gone unrecorded this was done inadvertently, but nonetheless validly. In the other 10 cases, Boiteau & Allorge-Boiteau (1995) variously and explicitly ascribed the new names and new combinations published in that work to either: (1) P. Boiteau, or to (2) L. Allorge-Boiteau. Only in three cases, that of the inadvertently validly published replacement name K. marnieriana H.Jacobsen ex Boiteau & Allorge-Boiteau (1995: 102) and the inadvertently validly published new combinations K. synsepala Baker (1882: 110) var. trichantha (Baker 1883: 140) Boiteau & Allorge-Boiteau (1995: 179) and K. integrifolia Baker (1887: 471) var. bitteri (Raymond-Hamet & Perrier de la Bâthie 1914: 120) Boiteau & Allorge-Boiteau (1995: 183), were Boiteau and Allorge-Boiteau co-authors of the names.
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2

Kadłubowska, Joanna Z. "Materials to the Zygnemaceae of Poland. I. Development cycle and supplementation of diagnosis of Zygnema allorgei Gauthier-Lievre 1965, a species new for the European flora." Acta Societatis Botanicorum Poloniae 56, no. 1 (2014): 139–41. http://dx.doi.org/10.5586/asbp.1987.015.

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In the water sample taken on September 7, 1976 from the pond in Głowno (Łódź District) filaments of <em>Zygnema</em> were found in vegetative stage. In culture a full development cycle of this alga was observed: vegetative filaments, conjugation, zygotes and their germination. The taxon was identified as <em>Zygnema allorgei</em> Gauthier-Lievre. Its diagnosis was supplemented. It is the second site of occurance of the species in the world. <em>Z. allorgei</em> was described for the first time in 1965 in Algeria.
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3

Allorge, Lucile. "Kopsia teoiL. Allorge (Apocynaceae), a new Malayan species." Acta Botanica Gallica 140, no. 1 (January 1993): 97–99. http://dx.doi.org/10.1080/12538078.1993.10515572.

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4

Alfasane, Md Almujaddade, Maliha Mehnaz, Ashika Akhtar, Mst Ayesha, Shafiul Azom Shafi, Shahima Islam, ZN Tahmida Begum, and Mahmoud Moustafa. "New records of Euglenophyceae for Bangladesh." Bangladesh Journal of Plant Taxonomy 28, no. 1 (June 22, 2021): 11–15. http://dx.doi.org/10.3329/bjpt.v28i1.54205.

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A total of 8 species of Euglenophyceae where 5 species of Euglena namely, Euglena lucens Günther, E. paludosa Mainx., E. gaumei Allorge & Lefèvre , E. heimii Lef., E. mangini Lefévre, and 3 species of Lepocinclis namely, Lepocinclis ovum var. deflandriana (Ehrenberg) Lemmermann, L. ovum var. globulus ( Perty) Lemmermann and L. steinii Lemmermann from Sylhet Division which are all new records for Bangladesh. Bangladesh J. Plant Taxon. 28(1): 11-15, 2021 (June)
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5

Allorge, Lucile, Christophe Wiart, and L. E. Teo. "Kopsia terengganensisL. Allorge & C. Wiart (Apocynaceae). A new Malayan species." Acta Botanica Gallica 142, no. 5 (January 1995): 433–37. http://dx.doi.org/10.1080/12538078.1995.10515268.

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6

SMITH, GIDEON F., and ESTRELA FIGUEIREDO. "A new status and combination in a Madagascan Kalanchoe, K. brevicalyx (Crassulaceae subfam. Kalanchooideae)." Phytotaxa 450, no. 2 (June 25, 2020): 243–45. http://dx.doi.org/10.11646/phytotaxa.450.2.10.

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The proposed name at new rank ‘Kalanchoe brevicalyx’ (Raymond-Hamet & Perrier de la Bâthie 1915: 88) L.Allorge (in Boiteau & Allorge-Boiteau 1995: 133) (Crassulaceae subfam. Kalanchooideae) was not validly published as a full and direct reference to the place of valid publication of the basionym, K. pinnata var. brevicalyx Raymond-Hamet & Perrier de la Bâthie (1915: 88), with page or plate reference and date, was not clearly indicated (Turland et al. 2018: Art. 41.5). We here validly publish the new combination and status.
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7

Stoinova, J. "Hybridization Between Tetraploid Allorye and Hexaploid Triticale." Cereal Research Communications 28, no. 3 (September 2000): 229–34. http://dx.doi.org/10.1007/bf03543598.

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8

Allorge, Lucile, Peter B. Phillipson, and Richardson Razakamalala. "Catharanthus Makayensis L. Allorge, Phillipson & Razakamal. (Apocynaceae), a New Species from Madagascar." Candollea 70, no. 1 (June 2015): 61–66. http://dx.doi.org/10.15553/c2015v701a7.

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9

Calderón, Angela I., Johayra Simithy, Giuliana Quaggio, Alex Espinosa, Jose Luis López-Pérez, and Mahabir P. Gupta. "Triterpenes from Warszewiczia coccinea (Rubiaceae) as Inhibitors of Acetylcholinesterase." Natural Product Communications 4, no. 10 (October 2009): 1934578X0900401. http://dx.doi.org/10.1177/1934578x0900401002.

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Seventy-six plant extracts from the Panamanian flora have been screened for acetylcholinesterase (AChE) inhibitors by thin-layer chromatography (TLC) bioautography. The most promising extracts with AChE inhibitory and free radical scavenging activities at 100 μg were those of Tabernaemontana panamensis (Markgr., Boiteau & L. Allorge) Leeuwenb., Pentagonia macrophylla Benth., and Warszewiczia coccinea (Vahl) Klotzsch. Bioguided fractionation of W. coccinea stem extract afforded two triterpenes, 3β,6β,19α-trihydroxy-urs-12-en-28-oic acid (1) and 3β,6β-dihydroxy-olean-12-en-28-oic acid (sumaresinolic acid) (2), with AChE inhibitory activity. Their structures were determined by spectroscopic methods. This is the first report of these bioactive triterpenes in W. coccinea.
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10

Davydova, Anastasia. "A Mediterranean element of the vegetation: Junco maritimi-Cladietum marisci – a new association for Ukraine." Hacquetia 19, no. 2 (December 1, 2020): 275–91. http://dx.doi.org/10.2478/hacq-2020-0010.

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AbstractCladium mariscus (L.) Pohl (Cyperaceae) is a rare species in Europe considered by several authors to be a relict of the early Holocene period. It is listed in the Red Data Book of Ukraine, Annexes of the Habitat Directive and the Bern Convention. Communities with domination of this species are included in the Green Data Book of Ukraine. Substantial differences in major ecological factors for Cladium mariscus communities in the western (carbonate bogs) and the southern (marshes and floating swamps of the northern Black Sea) regions of Ukraine were shown. The author carried out comparisons of relevés characterizing different communities with Cladium mariscus within Europe. Based on the results of TWINSPAN analysis, four associations were identified, confirmed by floristic indices and ecological data: Cladietum marisci Allorge 1921, Soncho maritimi-Cladietum marisci (Br.-Bl. & O. de Bolòs 1957) Cirujano 1980, Dorycnio recti-Cladietum marisci Gradstein & Smittenberg 1977 and Junco maritimi-Cladietum marisci (Br.-Bl. & O. de Bolòs 1957) Géhu & Biondi 1988. Thus, in addition to the association Cladietum marisci, a new one was indicated for Ukraine, Junco maritimi-Cladietum marisci.
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11

Donali, Espen, Pål Brettum, Øyvind Kaste, Jarl Eivind Løvik, Anne Lyche-Solheim, and Tom Andersen. "Pelagic response of a humic lake to three years of phosphorus addition." Canadian Journal of Fisheries and Aquatic Sciences 62, no. 2 (February 1, 2005): 322–32. http://dx.doi.org/10.1139/f04-234.

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Three years of whole-lake phosphorus (P) fertilization, conducted in a 12-ha boreal forest lake, revealed significant changes in epilimnion nutrients, biomasses, and primary production. As a time average for all three treatment years, primary production increased 257% relative to the reference basin value of 16.5 mg·m–3·day–1, whereas the carbon masses of both nanoalgae (>2 µm) and zooplankton increased roughly 130% from their initial values of 15 mg·m–3 and 17 mg·m–3, respectively. Calculated from a difference, the absolute increase in the sum of ciliates and picoplankton (heterotrophic bacteria and picoalgae) was more than six times as large as for algae larger than 2 µm, indicating that most added P ended in this compartment. Moreover, fertilization did not change the species inventory among nanoalgae and zooplankton, although the biomass composition changed somewhat. Only the former dominant species, the chrysophytes Dinobryon crenulatum, D. sociale v. americanum, Mallomonas allorgei, and Ochromonas sp. and the calanoid copepod Eudiaptomus gracilis increased substantially in biomass owing to the added P. Surprisingly, we observed a substantial delay in the food web response to fertilization, where most variables increased monotonously in size from year to year during the fertilization period. The underlying mechanisms for these delayed increases remains to be explained.
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12

Dzigurski, Dejana, Slobodanka Stojanovic, Aleksa Knezevic, Ljiljana Nikolic, and Branka Ljevnaic-Masic. "Vegetation of the classes Hydrochari-Lemnetea Oberd. 1967 and Potametea Tx. et Prsg. 1942 in the Jegricka watercourse (The province of Vojvodina, Serbia)." Zbornik Matice srpske za prirodne nauke, no. 118 (2010): 99–106. http://dx.doi.org/10.2298/zmspn1018099d.

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The Jegricka, once a natural watercourse traversing the southwestern part of the Backa region, has been turned into a canal, which became part of the main canal network of the hydro-system Danube-Tisza-Danube (Hs DTD). In its turn, the Hs DTD is part of the European waterway linking the North Sea to the Black Sea, i.e., part of the navigable Rhine-Main-Danube Canal. The watercourse is 65.4 km long and it is divided into three levels. The presence of the regulated and the nonregulated sections of the canal, frequent and abrupt changes in water level in the individual sections, different depths and surface water widths of the various sections and the fishpond constructed in the lower section cause considerable vegetation diversity. The vegetation comprises aquatic associations of the classes Hydrochari-Lemnetea Oberd. 1967 and Potametea Tx. et Prsg. 1942. The class Hydrochari-Lemnetea Oberd. 1967 includes the following phytocoenoses: Salvinio-Spirodeletum polyrrhizae Slavnic 1956, Ceratophylletum demersi (So? 27) Hild. 1956, Lemno-Utricularietum vulgaris So? 1928 and Hydrocharidetum morsus-ranae Van Langendonck 1935. The class Potametea Tx. et Prsg. 1942 includes the associations Myriophyllo-Potametum So? 1934, Najadetum marine Fukarek 1961, Nymphaeetum albae Vollmar 1947, Nymphoidetum peltate (Allorge 1922) Oberd. et M?ller 1960 and Trapetum natantis M?ller et G?rs 1960.
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13

Mitlehner, Alexander G. "Species of the diatom taxa <i>Aulacodiscus</i> and <i>Trinacria</i> with biostratigraphic utility in Palaeogene and Neogene North Sea sediments." Journal of Micropalaeontology 38, no. 1 (May 29, 2019): 67–81. http://dx.doi.org/10.5194/jm-38-67-2019.

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Abstract. Species of Aulacodiscus and Trinacria, two important marine diatom genera with biostratigraphic utility in offshore North Sea exploration and onshore correlation, are identified, described and emended and the North Sea microfaunal zonation scheme is revised accordingly. Occurring mainly as pyritised diatom moulds or steinkerns, detailed scanning electron microscope (SEM) analysis of several specimens, formerly in open nomenclature, has allowed the correct taxonomic identification of pyritised morphologies found to belong to the genus Aulacodiscus, including A. allorgei, A. heterostictus, A. insignis, A. singilewskyanus, A. subexcavatus and A. suspectus. The important marker species Trinacria regina is emended. SEM studies, using specimens preserved in pyrite and original silica, have shed further light on the varying forms and frustule morphology of Trinacria regina so that valves and frustules formerly thought to represent separate species are now found to be grouped within this taxon; SEM studies have shown that many of these variations represent different valves within a chain, whilst others may signify ecophenotypic variants. Emendments are therefore made to clarify the taxonomic status of different variants within T. regina, important in the Palaeocene–Eocene boundary interval onshore and offshore such as the Sele and Balder formations and the Fur Formation diatomite of Jutland, Denmark. Species of taxa formerly in open nomenclature are now assigned to Aulacodiscus insignis, which are important offshore markers in offshore late Oligocene to early Miocene sediments in northwest Europe.
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14

Sousa, Filipa L., Daniel J. Parente, Jacob A. Hessman, Allen Chazelle, Sarah A. Teichmann, and Liskin Swint-Kruse. "Data on publications, structural analyses, and queries used to build and utilize the AlloRep database." Data in Brief 8 (September 2016): 948–57. http://dx.doi.org/10.1016/j.dib.2016.07.006.

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15

Sousa, Filipa L., Daniel J. Parente, David L. Shis, Jacob A. Hessman, Allen Chazelle, Matthew R. Bennett, Sarah A. Teichmann, and Liskin Swint-Kruse. "AlloRep: A Repository of Sequence, Structural and Mutagenesis Data for the LacI/GalR Transcription Regulators." Journal of Molecular Biology 428, no. 4 (February 2016): 671–78. http://dx.doi.org/10.1016/j.jmb.2015.09.015.

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16

Coesel, Peter F. M., and Alfred van Geest. "New or otherwise interesting desmid taxa from the Bangweulu region (Zambia). 1. Genera Micrasterias and Allorgeia (Desmidiales)." Plant Ecology and Evolution 147, no. 3 (November 6, 2014): 392–404. http://dx.doi.org/10.5091/plecevo.2014.985.

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17

Pavesio, Monica. "Bernard Allorent, La fortune de la Grande Mademoiselle. Anne Marie Louise d’Orléans, duchesse de Montpensier (1627-1693). Un enjeu politique au x." Studi Francesi, no. 191 (LXIV | II) (August 1, 2020): 402. http://dx.doi.org/10.4000/studifrancesi.31693.

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18

Thom, Vu Thi, Le Thi Luyen, Le Anh Tuan, Pham Thi Hong Nhung, and Nguyen Thi Thu Ha. "Drug Resistance and Distribution of NAT2 Variants in Newly Diagnosed and Recurrent Vietnamese Pulmonary Tuberculosis Patients." VNU Journal of Science: Medical and Pharmaceutical Sciences 35, no. 1 (June 21, 2019). http://dx.doi.org/10.25073/2588-1132/vnumps.4166.

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Drug resistant TB is currently a global challenge causing high risk of death and expanding the disease. This study explores the prevalence of drug resistance in newly diagnosed and recurrent TB patients and identifies the association between NAT2 gene polymorphism distribution and acetylator phenotype of NAT2 gene and the two study groups. The study results show that the newly diagnosed TB had l lower male ratio and younger age in comparison to the recurrent TB. Newly diagnosed group was more sensitive to first line TB drugs. However, both groups had significant resistance ratio in relation to INH and SM. Finally, the allele and acetylator phenotype frequency of NAT2 showed the significant association with TB status. The study concludes that the newly diagnosed and recurrent TB patients expressed differently in their profiles concerning patient’s background, drug resistance and NAT2 allele distribution. Keywords Drug resistance, INH, NAT2 polymorphism, newly diagnosed TB, recurrent TB1. References [1] WHO, Global Tuberculossi report, https://www.who.int/tb/publications/global_report/en/, 2018 (accessed 16 April 2019).[2] Hoàng Thị Phượng, Nghiên cứu đặc điểm lâm sàng, cận lâm sàng, tính kháng thuốc của vi khuẩn ở bệnh nhân lao phổi mới kết hợp bệnh đái tháo đường, Luận văn tiến sĩ Y học, trường Đại học Y Hà Nội, 2009.[3] S. Guaoua, I. Ratbi, F.Z. Laarabi, S.A. Elalaoui, IC. Jaouad, A. Barkat, A. Sefiani, Distribution of allelic and genotypic frequencies of NAT2 and CYP2E1 variants in Moroccan population, BMC Genet. 15 (2014) 156.[4] A. Toure, M. Cabral, A. Niang, C. Diop, A. Garat, L. Humbert, M. Fall, A. Diouf, F. Broly, M. Lhermitte, D. Allorge, Prevention of isoniazid toxicity by NAT2 genotyping in Senegalese tuberculosis patients, Toxicol Rep. 3 (2016) 826-831.[5] M. Majumder, N. Sikdar, S. Ghosh, B. Roy, Polymorphisms at XPD and XRCC1 DNA repair loci and increased risk of oral leukoplakia and cancer among NAT2 slow acetylators, Int J Cancer. 120(10) (2007) 2148-2156.[6] S. Morita, M. Yano, T. Tsujinaka, Y. Akiyama, M. Taniguchi, K. Kaneko, H. Miki, T. Fujii, K. Yoshino, H. Kusuoka, M. Monden, Genetic polymorphisms of drug-metabolizing enzymes and susceptibility to head-and-neck squamous-cell carcinoma, Int J Cancer. 80(5) (1999) 685-688.[7] Hoàng Hà, Nghiên cứu một số đặc điểm lâm sàng, cận lâm sàng, sinh học của vi khuẩn ở bệnh nhân lao phổi điều trị lại, Luận án tiến sỹ Y học, Trường Đại học Y Hà Nội, 2009.[8] S. Wattanapokayakit, T. Mushiroda, H. Yanai, N. Wichukchinda, C. Chuchottawon, S. Nedsuwan, A. Rojanawiwat, S. Denjanta, T. Kantima, J. Wongyai, W. Suwankesawong, W. Rungapiromnan, R. Kidkeukarun, W. Bamrungram, A. Chaiwong, S. Suvichapanich, S. Mahasirimongkol, K. Tokunaga, NAT2 slow acetylator associated with anti-tuberculosis drug-induced liver injury in Thai patients, Int J Tuberc Lung Dis. 20(10) (2016) 1364-1369.[9] Đinh Ngọc Sỹ, Chiến lược quản lý bệnh lao đa kháng thuốc tại Việt Nam, Tạp chí khoa học Hội Phổi Pháp - Việt. 2(3) (2011) 40-42.[10] Nguyễn Thu Hà, Trần Văn Sáng, Đinh Ngọc Sỹ, Lâm sàng, cận lâm sàng và tính kháng thuốc của vi khuẩn lao ở bệnh nhân lao phổi tái phát, JFran Viet Pneu. 2(3) (2011) 63-67.[11] D. Tu, L. Zhang, J. Su, Resistance and efficacy of treatment in relapse pulmonary tuberculosis, Zhonghua Jie He He Hu Xi Za Zhi. 23 (11) (2000) 666-668
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