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Journal articles on the topic 'Millettia'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

BALAN, ANOOP PUTHUPARAMPIL, SREEVILAS VASUDEVAN PREDEEP, and RAVEENDRAN PILLAI PRAKASHKUMAR. "Lectotypification of two names in Indian Millettia (Fabaceae—Papilionoideae)." Phytotaxa 494, no. 2 (April 6, 2021): 225–30. http://dx.doi.org/10.11646/phytotaxa.494.2.5.

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Two names in Indian Milletia (Fabaceae—Papilionoideae) namely, M. rubiginosa and M. splendens are lectotypified here as a part of the revisionary study of the tribe Millettieae in India. Original materials of both species were traced from BM, BR, CAL, E, K, M, MH, P and NY. Besides, the diversity of Millettia in India is briefly discussed. An artificial key for the identification of Millettia species in India is also presented.
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2

SONG, ZHUQIU, XUEJUN OUYANG, LEI ZUO, and ZHONGLIANG HUANG. "The identity of Fordia microphylla and lectotypification of Millettia pulchra (Fabaceae: Millettieae)." Phytotaxa 332, no. 1 (December 15, 2017): 51. http://dx.doi.org/10.11646/phytotaxa.332.1.5.

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The non-monophyletic genus Fordia is hardly distinguished from some taxa of the polyphyletic genus Millettia of the same tribe Millettieae (Fabaceae). Examination of both literature and specimens shows that the Chinese species Fordia microphylla is conspecific with the widely distributed species Millettia pulchra. Some nomenclatural questions on Fordia microphylla are clarified, and the lectotype of Millettia pulchra is designated.
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3

SONG, ZHUQIU, BO PAN, TING ZHANG, YUNHONG TAN, YONGSHENG ZHANG, ZUWEI YANG, and DONGXIAN XU. "Millettia puerarioides Prain (Fabaceae: Millettieae), a species with cauliflorous inflorescences newly recorded from China." Phytotaxa 507, no. 2 (June 9, 2021): 183–90. http://dx.doi.org/10.11646/phytotaxa.507.2.6.

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Millettia puerarioides Prain within the tribe Millettieae (Fabaceae) is a poorly known species and it was previously reported only from Myanmar. This species was recently found also in Yingjiang, Yunnan Province, China. The inflated pods with large seeds place it in Millettia section Macrosperma Dunn, but specimen examination and field investigations showed that it has inflorescences arising from leafless nodes and directly from the trunk (i.e. rami- and caulinascent inflorescences), which is similar to the species in the genus Fordia from the same tribe. This inflorescence type has been considered to be a rare character for Asian plants of the subfamily Papilionoideae, showing the close connection between Millettia and Fordia.
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4

QIAO, GEXIA X., LIYUN Y. JIANG, and JON H. MARTIN. "Aulacophoroides (Sternorrhyncha: Aphididae), a generic account, description of a new species from Hong Kong (China) and a key to species." Zootaxa 1299, no. 1 (August 21, 2006): 57. http://dx.doi.org/10.11646/zootaxa.1299.1.4.

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The aphid genus Aulacophoroides Eastop and Hille Ris Lambers is reviewed. Aulacophoroides millettiae sp. nov. is described from Millettia sp. in Hong Kong, China. A key to the described species of Aulacophoroides is provided. The type specimens studied are deposited in the Zoological Museum, Institute of Zoology, Chinese Academy of Sciences, Beijing, China and the Natural History Museum, London, U.K.
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5

SONG, ZHU-QIU, BO PAN, BING LI, DONGXIAN XU, and SHIJIN LI. "Millettia lantsangensis is conspecific with Cruddasia insignis (Fabaceae)." Phytotaxa 497, no. 1 (April 16, 2021): 29–38. http://dx.doi.org/10.11646/phytotaxa.497.1.3.

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Millettia lantsangensis Z.Wei was described within the tribe Millettieae on the basis of one fruiting and two flowering gatherings from Yunnan Province, China. Our critical examination shows that these gatherings are mixed and represent two distinct species from two different tribes. The fruiting specimens have woody branches, terminal infructescences and inflated pods, closely resembling Callerya sphaerosperma (Z. Wei) Z. Wei & Pedley from the same tribe, while the flowering collections have soft and herbaceous branches, axillary pseudoracemes and wart-like brachyblasts, and belong to Cruddasia insignis Prain from the tribe Phaseoleae. Because one of the flowering specimens was indicated as the type of Millettia lantsangensis, this is here reduced to a synonym of Cruddasia insignis. The genus Cruddasia Prain was previously reported only from Myanmar and Thailand, and is therefore a new genus record for the flora of China.
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6

Song, Zhu-Qiu, Ke-Jian Yan, Cheng-Jie Zhu, Qian Xia, Dong-Xian Xu, and Shi-Jin Li. "Millettia sapindifolia is a synonym of Derris yunnanensis (Leguminosae: Millettieae)." Nordic Journal of Botany 35, no. 4 (August 2017): 404–10. http://dx.doi.org/10.1111/njb.01555.

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7

Perrett, S., P. J. Whitfield, A. Bartlett, and L. Sanderson. "Attenuation of Schistosoma mansoni cercariae with a molluscicide derived from Millettia thonningii." Parasitology 109, no. 5 (December 1994): 559–63. http://dx.doi.org/10.1017/s0031182000076435.

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A chloroform extract of molluscicidal plant secondary compounds from the seeds of a West African legume Millettia thonningii was used to attenuate cercariae of Schistosoma mansoni prior to infection of NMRI female mice. Exposure of cercariae to 0·3, 0·6, 1·3, 2·5, 10 or 20 mg/l concentrations of extract for 30 mm, immediately before standardized infection, was associated with a concentration-dependent decline in worm establishment at 55 days post-infection. The mean numbers of adult worms established declined from about 17 worms/mouse with control cercariae and those exposed to 0·3 mg/l Millettia to 0·1 worms/mouse after 10 mg/l pre-treatment. Mice exposed to cercariae after 20 mg/l pre-treatment had no adult worms at 55 days post-infection. The activities of cercariae 30 mm after exposure to Millettia extract at concentrations up to 2·5 mg/l were similar to those of control larvae: none was immobile. Exposure to higher concentrations of Millettia progressively reduced swimming activity and increased the proportion of immobile cercariae. After pretreatment with 20 mg/l Millettia the majority of larvae were immobile. Levels of anti-parasite antibodies (estimated by ELISA assay using an adult worm-based antigen preparation) rose between 21 and 55 days p.i. with control cercariae and those pre-treated with 2·5 mg/l Millettia. After 5 mg/l pre-treatment, cercariae induced a reduced antibody rise, while mice exposed to cercariae after 10 mg/l pre-treatment showed no rise in anti-parasite antibody levels. These results are discussed in the context of protocols which could possibly use Millettia-attenuated cercariae to induce useful levels of protection in mice towards further cercarial challenge.
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8

Kumar, R. Jagdish, G. L. David Krupadanam, and G. Srimannarayana. "Isoflavans from Millettia racemosa." Phytochemistry 28, no. 3 (January 1989): 913–16. http://dx.doi.org/10.1016/0031-9422(89)80141-4.

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9

Na, Zhi, Qi-Shi Song, and Hua-Bin Hu. "Flavonoids from Millettia cubitti." Chemistry of Natural Compounds 52, no. 1 (January 2016): 117–18. http://dx.doi.org/10.1007/s10600-016-1563-1.

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10

Rajemiarimiraho, Manitriniaina, Jean Théophile Banzouzi, Stéphane Richard Rakotonandrasana, Pierre Chalard, Françoise Benoit-Vical, Léa Herilala Rasoanaivo, Amélie Raharisololalao, and Roger Randrianja. "Pyranocoumarin and Triterpene from Millettia Richardiana." Natural Product Communications 8, no. 8 (August 2013): 1934578X1300800. http://dx.doi.org/10.1177/1934578x1300800817.

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From the stem bark of a Madagascan endemic plant, Millettia richardiana Baill., lonchocarpenin and betulinic acid were isolated and their structures established by spectroscopic methods. The analysis of dichloromethane fractions suggested the presence of β-amyrin, lupeol, palmitic acid, linoleic acid and stearic acid. Except for β-amyrin and lupeol, these compounds are described for the first time for the Millettia genus.
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11

Acharya, Laxmikanta, Arup Kumar Mukherjee, and Pratap Chandra Panda. "Genome Relationship among Nine Species of Millettieae (Leguminosae: Papilionoideae) Based on Random Amplified Polymorphic DNA (RAPD)." Zeitschrift für Naturforschung C 59, no. 11-12 (December 1, 2004): 868–73. http://dx.doi.org/10.1515/znc-2004-11-1217.

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Random amplified polymorphic DNA (RAPD) marker was used to establish intergeneric classification and phylogeny of the tribe Millettieae sensu Geesink (1984) (Leguminosae: Papilionoideae) and to assess genetic relationship between 9 constituent species belonging to 5 traditionally recognized genera under the tribe. DNA from pooled leaf samples was isolated and RAPD analysis performed using 25 decamer primers. The genetic similarities were derived from the dendrogram constructed by the pooled RAPD data using a similarity index, which supported clear grouping of species under their respective genera, inter- and intra-generic classification and phylogeny and also merger of Pongamia with Millettia. Elevation of Tephrosia purpurea var. pumila to the rank of a species (T. pumila) based on morphological characteristics is also supported through this study of molecular markers.
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12

Ding, Ping, Jin-ying Qiu, Ge Ying, and Lei Dai. "Chemical Constituents of Millettia speciosa." Chinese Herbal Medicines 6, no. 4 (November 2014): 332–34. http://dx.doi.org/10.1016/s1674-6384(14)60051-4.

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13

Palazzino, Giovanna, Philippe Rasoanaivo, Elena Federici, Marcello Nicoletti, and Corrado Galeffi. "Prenylated isoflavonoids from Millettia pervilleana." Phytochemistry 63, no. 4 (June 2003): 471–74. http://dx.doi.org/10.1016/s0031-9422(02)00489-2.

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14

Prakash Rao, Ch, and G. L. David Krupadanam. "An isoflavan from Millettia racemosa." Phytochemistry 35, no. 6 (April 19, 1994): 1597–99. http://dx.doi.org/10.1016/s0031-9422(00)86904-6.

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15

Marco, Makungu, Tsegaye Deyou, Amra Gruhonjic, John Holleran, Sandra Duffy, Matthias Heydenreich, Paul A. Firtzpatrick, et al. "Pterocarpans and isoflavones from the root bark of Millettia micans and of Millettia dura." Phytochemistry Letters 21 (September 2017): 216–20. http://dx.doi.org/10.1016/j.phytol.2017.07.012.

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16

Buyinza, Daniel, Duncan Mutiso Chalo, Solomon Derese, Albert Ndakala, and Abiy Yenesew. "Flavonoids and Isoflavonoids of Millettia dura and Millettia ferruginea: Phytochemical review and chemotaxonomic values." Biochemical Systematics and Ecology 91 (August 2020): 104053. http://dx.doi.org/10.1016/j.bse.2020.104053.

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17

Kaur, Arshpreet, and M. C. Sidhu. "ASSESSMENT OF PHYTOCONSTITUENTS OF MEDICINAL IMPORTANCE FROM MILLETTIA PEGUENSIS ALI (SYN. MILLETTIA OVALIFOLIA KURZ)." INDIAN DRUGS 57, no. 05 (July 1, 2020): 43–50. http://dx.doi.org/10.53879/id.57.05.12063.

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The present study was aimed to investigate the biologically active compounds present in the seed and leaf extracts of Millettia peguensis. Screening was done through preliminary qualitative analysis of phytochemicals and Gas Chromatography-Mass Spectroscopy (GC-MS) method. The study revealed the presence of alkaloids, carbohydrates, flavonoids, glycosides, gum and mucilage, phenolics, quinones, steroids and terpenoids in both aqueous and ethanol extracts of leaves and seeds. The GC-MS analysis of ethanol extracts of seeds and leaves have yielded 29 and 23 phytoconstituents, respectively. These observations were further validated by Fourier transform infrared spectroscopy (FT-IR) of the leaves and seeds powder. FT-IR has provided detailed information of the various functional groups associated with the compounds present in the samples. A single compound was isolated through Column Chromatography and Thin Layer Chromatography whose characterization was done through mass spectroscopy and IR spectroscopy.
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18

Yu, Dandan, and Xianrui Liang. "Characterization and Identification of Isoflavonoids in the Roots of Millettia speciosa Champ. by UPLC-Q-TOF-MS/MS." Current Pharmaceutical Analysis 15, no. 6 (July 18, 2019): 580–91. http://dx.doi.org/10.2174/1573412914666180608095922.

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Introduction: The root of Millettia speciosa Champ. (Leguminosae) is one of the wellknown traditional Chinese medicines abundant in phenolic compounds and plays important roles in the treatment of pain or numbness of the joints, blood deficiency sallow, chronic bronchitis and chronic hepatitis. Objective: An ultra-high performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF-MS/MS) based chemical profiling approach was established for the separation and characterization of isoflavonoids in the roots of Millettia speciosa Champ. Methods: The roots of Millettia speciosa Champ. were prepared by ethanol extraction followed by further extraction with chloroform. The extracts were analyzed by UPLC-Q-TOF-MS in positive and negative electrospray ion modes at different Collision Energy (CE) values. Results: A total of 48 components were simultaneously detected, of which 38 components, including 21 isoflavones, 4 phenolic acids, 4 isoflavanones, 2 phenolic aldehydes, 2 flavanones, 1 aliphatic acid, 1 chalcone, 1 flavonol, 1 isoflavane and 1 pterocarpan were unambiguously identified or tentatively assigned based on the retention time, UV spectra, characteristic molecular ions, MS/MS fragmentation data and reference standards. The isomers of isoflavonoids were distinguished using accurate mass, the diagnostic fragmentations of C-ring and UV spectra. The major diagnostic fragment ions of isoflavonoids were observed and the corresponding fragmentation pathways were proposed. Conclusion: This investigation provides important analysis data for further quality control, pharmacological and toxicological research on Millettia speciosa Champ.
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19

Mattapha, Sawai, Auamporn Veesommai, Sathaporn Patthum, and Pranom Chantaranothai. "Two new records and lectotypified taxa of the genus Millettia (Fabaceae: Millettieae) for Thailand." Thai Forest Bulletin (Botany) 47, no. 1 (2019): 5–10. http://dx.doi.org/10.20531/tfb.2019.47.1.02.

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20

MBAFOR, J. T., A. T. ATCHADE, A. E. NKENGFACK, Z. T. FOMUM, and O. STERNER. "ChemInform Abstract: The Millettia of Cameroon. Part 4. Furanoflavones from Root Bark of Millettia sanagana." ChemInform 27, no. 9 (August 12, 2010): no. http://dx.doi.org/10.1002/chin.199609282.

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21

Yankep, Emmanuel, J. Tanyi Mbafor, Z. Tanee Fomum, Christoph Steinbeck, Bernard Blaise Messanga, Barthelemy Nyasse, H. Budzikiewicz, Christof Lenz, and Hans Schmickler. "ChemInform Abstract: The Millettia of Cameroon. Part 11. Further Isoflavonoid Metabolites from Millettia griffoniana (Bail)." ChemInform 32, no. 38 (May 24, 2010): no. http://dx.doi.org/10.1002/chin.200138198.

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22

Na, Zhi, Qishi Song, and Qingfei Fan. "New Xanthone from Millettia pachyloba Drake." Records of Natural Products 13, no. 5 (September 3, 2019): 385–89. http://dx.doi.org/10.25135/rnp.116.18.10.1020.

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23

Na, Zhi, Qing-Fei Fan, Qi-Shi Song, and Hua-Bin Hu. "Three new flavonoids from Millettia pachyloba." Phytochemistry Letters 19 (March 2017): 215–19. http://dx.doi.org/10.1016/j.phytol.2017.02.002.

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24

Galeffi, Corrado, Philippe Rasoanaivo, Elena Federici, Giovanna Palazzino, Marcello Nicoletti, and Benoît Rasolondratovo. "Two prenylated isoflavanones from Millettia pervilleana." Phytochemistry 45, no. 1 (May 1997): 189–92. http://dx.doi.org/10.1016/s0031-9422(96)00773-x.

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25

Kamperdick, Christine, Nguyen Minh Phuong, Tran Van Sung, and Günter Adam. "Flavones and isoflavones from Millettia ichthyochtona." Phytochemistry 48, no. 3 (June 1998): 577–79. http://dx.doi.org/10.1016/s0031-9422(98)00023-5.

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26

Kapingu, Modest, Zakaria Mbwambo, Mainen Moshi, Joseph Magadula, Paul Cos, Dirk Berghe, Louis Maes, et al. "A Novel Isoflavonoid from Millettia puguensis." Planta Medica 72, no. 14 (November 2006): 1341–43. http://dx.doi.org/10.1055/s-2006-951689.

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27

Ganapaty, Seru, Vaddavalli Pushpalatha, Gella Jaya Babu, Kandibella C. Naidu, and Peter G. Waterman. "Flavonoids from Millettia peguensis Ali (Fabaceae)." Biochemical Systematics and Ecology 26, no. 1 (January 1998): 125–26. http://dx.doi.org/10.1016/s0305-1978(97)00088-4.

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28

Na, Zhi, Qi-Shi Song, and Hua-Bin Hu. "Flavonoids from Twigs of Millettia pubinervis." Natural Product Communications 9, no. 12 (December 2014): 1934578X1400901. http://dx.doi.org/10.1177/1934578x1400901214.

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A new flavone, 3-methoxy-5-hydroxy-[2”,3”:7,8] furanoflavone, pubinerone (1), was isolated from the twigs of Millettia pubinervis Kurz, together with ten known flavonoids, karanjin (2), kanjone (3), 3,6-dimethoxy-[2”,3”:7,8] furanoflavone (4), pongaglabrone (5), pongapin (6), pongaflavone (7), 3,6-dimethoxy-6”,6”-dimethylchromene-[2”,3”:7,8] flavone (8), pongachromene (9), 3,6-dimethoxy-3′,4′-methylenedioxy-6”,6”-dimethylchromene-[2”,3”:7,8] flavone (10) and demethoxykanugin (11). This is the first phytochemical investigation of this plant. The structure of compound 1 was elucidated on the basis of spectroscopic data interpretation, including 1D and 2D NMR and HREIMS analysis. The cytotoxicity of 1 against five human cancer cell lines, HL-60, SMMC-7721, A-549, MCF-7 and SW480, was evaluated, but it was inactive (IC50>40μM).
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29

Cheng, Jun, Yu-Ying Zhao, Bin Wang, Liang Qiao, and Hong Liang. "Flavonoids from Millettia nitida var. hirsutissima." CHEMICAL & PHARMACEUTICAL BULLETIN 53, no. 4 (2005): 419–21. http://dx.doi.org/10.1248/cpb.53.419.

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Tiabou Tchinda, Alembert, Shamsun Nahar Khan, Victorine Fuendjiep, François Ngandeu, Annie Ngono Ngane, and Muhammad Iqbal Choudhary. "α-Glucosidase Inhibitors from Millettia conraui." CHEMICAL & PHARMACEUTICAL BULLETIN 55, no. 9 (2007): 1402–3. http://dx.doi.org/10.1248/cpb.55.1402.

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31

Dagne, Ermias, and Amha Bekele. "C-prenylated isoflavones from Millettia ferruginea." Phytochemistry 29, no. 8 (January 1990): 2679–82. http://dx.doi.org/10.1016/0031-9422(90)85212-x.

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Rao, C. Prakash, A. Prashant, and G. L. D. Krupadanam. "Two prenylated isoflavans from Millettia racemosa." Phytochemistry 41, no. 4 (March 1996): 1223–24. http://dx.doi.org/10.1016/0031-9422(95)00735-0.

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33

Zeng, Q. Q., D. D. Xu, Y. C. Huang, Q. W. Liu, and H. Zheng. "First Report of Powdery Mildew of Beautiful Millettia (Millettia speciosa) Caused by Erysiphe quercicola in China." Plant Disease 103, no. 7 (July 2019): 1791. http://dx.doi.org/10.1094/pdis-02-19-0422-pdn.

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34

SONG, ZHUQIU, GANG YAO, KAIWEN JIANG, JUNJIE LIAO, and DONGXIAN XU. "Spatholobus discolor, a new synonym of Craspedolobium unijugum (Fabaceae)." Phytotaxa 489, no. 3 (March 9, 2021): 263–74. http://dx.doi.org/10.11646/phytotaxa.489.3.3.

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Craspedolobium schochii Harms was described in 1921 and has thin woody, flat, dehiscent pods with a narrow wing on the upper suture, which are quite different from those of other genera within the same tribe Millettieae (Fabaeceae), but its flowering materials from Laos and Thailand were described respectively as Millettia unijuga Gagnep. in 1913 and as Pueraria rigens Craib in 1927. Due to the priority of the Shenzhen Code, its correct name was accepted as Craspedolobium unijugum (Gagnep.) Z. Wei & Pedley as recently as 2010. The results of critical examination of specimens, literature and living plants in the wild showed that Spatholobus discolor C. F. Wei, a species described on the basis of one flowering collection from China, is also conspecific with C. unijugum. We therefore reduce S. discolor to the synonymy of C. unijugum herein. Additionally, we designated the second-step lectotype of the name C. schochii, and further found that Craspedolobium is a new genus record for the flora of Vietnam.
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Nasiruddin, Nasiruddin, Yu Zhangxin, Ting Zhao Chen Guangying, and Minghui Ji. "Allelopathic and Medicinal plant. 26. Millettia speciosa." Allelopathy Journal 51, no. 2 (November 2020): 125–46. http://dx.doi.org/10.26651/allelo.j/2020-51-2-1295.

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We grew cucumber in pots in greenhouse for 9-successive cropping cycles and analyzed the rhizosphere Pseudomonas spp. community structure and abundance by PCR-denaturing gradient gel electrophoresis and quantitative PCR. Results showed that continuous monocropping changed the cucumber rhizosphere Pseudomonas spp. community. The number of DGGE bands, Shannon-Wiener index and Evenness index decreased during the 3rd cropping and thereafter, increased up to the 7th cropping, however, however, afterwards they decreased again. The abundance of Pseudomonas spp. increased up to the 5th successive cropping and then decreased gradually. These findings indicated that the structure and abundance of Pseudomonas spp. community changed with long-term cucumber monocropping, which might be linked to soil sickness caused by its continuous monocropping.
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Ongoka, R. P, Banzouzi, T. J, Poupat, C, Ekouya, et al. "Steroids isolated from Millettia versicolor Baker (Fabaceae)." African Journal of Biotechnology 7, no. 11 (June 3, 2008): 1727–30. http://dx.doi.org/10.5897/ajb08.194.

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37

Mollel, Neduvoto, and Frits Adema. "Revision of Millettia Section Truncaticalyces (Leguminosae–Papilionoideae)." Blumea - Biodiversity, Evolution and Biogeography of Plants 51, no. 2 (July 27, 2006): 333–43. http://dx.doi.org/10.3767/000651906x622274.

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SRITULARAK, B., and K. LIKHITWITAYAWUID. "Flavonoids from the pods of Millettia erythrocalyx." Phytochemistry 67, no. 8 (April 2006): 812–17. http://dx.doi.org/10.1016/j.phytochem.2006.01.013.

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39

Fu, Man-qin, Geng-sheng Xiao, Yu-juan Xu, Ji-jun Wu, Yu-long Chen, and Samuel-X. Qiu. "Chemical Constituents from Roots of Millettia speciosa." Chinese Herbal Medicines 8, no. 4 (October 2016): 385–89. http://dx.doi.org/10.1016/s1674-6384(16)60068-0.

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Sritularak, Boonchoo, Kittisak Likhitwitayawuid, Jürgen Conrad, and Wolfgang Kraus. "Flavonoids from the roots of Millettia erythrocalyx." Phytochemistry 61, no. 8 (December 2002): 943–47. http://dx.doi.org/10.1016/s0031-9422(02)00337-0.

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41

Ngamga, D., S. N. Y. Fanso Free, Z. T. Fomum, A. Chiaroni, C. Riche, M. T. Martin, and B. Bodo. "Millaurine and Acetylmillaurine: Alkaloids from Millettia laurentii." Journal of Natural Products 56, no. 12 (December 1993): 2126–32. http://dx.doi.org/10.1021/np50102a015.

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Ngamga, Dieudonne, Samuel N. Y. Fanso Free, Z. Tanee Fomum, Marie-Therese Martin, and Bernard Bodo. "A New Guanidine Alkaloid from Millettia laurentii." Journal of Natural Products 57, no. 7 (July 1994): 1022–24. http://dx.doi.org/10.1021/np50109a026.

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43

Kamnaing, Pierre, S. N. Yurika Fanso Free, Z. Tanee Fomum, Marie-Thérèse Martin, and Bernard bodo. "Millettonine, a guanidine alkaloid from Millettia laurentii." Phytochemistry 36, no. 6 (August 1994): 1561–62. http://dx.doi.org/10.1016/s0031-9422(00)89766-6.

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44

Yankep, Emmanuel, J. Tanyi Mbafor, Z. Tanee Fomum, Christoph Steinbeck, Bernard Blaise Messanga, Barthelemy Nyasse, H. Budzikiewicz, Christof Lenz, and Hans Schmickler. "Further isoflavonoid metabolites from Millettia griffoniana (Bail)." Phytochemistry 56, no. 4 (February 2001): 363–68. http://dx.doi.org/10.1016/s0031-9422(00)00400-3.

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45

Yankep, Emmauel, Z. T. Fomum, and Ermias Dagne. "An O-geranylated isoflavone from Millettia griffoniana." Phytochemistry 46, no. 3 (October 1997): 591–93. http://dx.doi.org/10.1016/s0031-9422(97)00326-9.

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46

Kang, Yunyao, Yanbei Tu, Xuefei Meng, Qin Li, Chao Zhu, and Yanfang Li. "A New Flavonol Glycoside from Millettia pachycarpa." Natural Product Communications 12, no. 9 (September 2017): 1934578X1701200. http://dx.doi.org/10.1177/1934578x1701200916.

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Abstract:
Eight compounds (1-8), including a new flavonol glycoside (1), were isolated from Millettia pachycarpa. Their structures were elucidated based on combination of spectroscopic methods and comparing with data in literatures. Three of them (2, 6 and 8) were obtained from this genus for the first time. Meanwhile, this is also the first time compound 5 has been found from nature. Biological evaluation of all isolates against two cholinesterases (ChEs) is also described.
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47

Takahashi, Marii, Hiroyuki Fuchino, Setsuko Sekita, Motoyoshi Satake, and Fumiyuki Kiuchi. "In Vitro Leishmanicidal Constituents of Millettia pendula." CHEMICAL & PHARMACEUTICAL BULLETIN 54, no. 6 (2006): 915–17. http://dx.doi.org/10.1248/cpb.54.915.

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48

Parvez, M., and O. N. Ogbeide. "3-Hydroxy-4′-methoxyflavone from Millettia zechiana." Phytochemistry 29, no. 6 (1990): 2043–44. http://dx.doi.org/10.1016/0031-9422(90)85069-r.

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49

Mbafor, J. T., A. T. Atchade, A. E. Nkengfack, Z. T. Fomum, and Olov Sterner. "Furanoflavones from root bark of Millettia sanagana." Phytochemistry 40, no. 3 (October 1995): 949–52. http://dx.doi.org/10.1016/0031-9422(95)00058-f.

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50

Remane, Ivan A. D., and Matthew D. Therrell. "Dendrochronological potential of Millettia stuhlmannii in Mozambique." Trees 29, no. 3 (December 27, 2014): 729–36. http://dx.doi.org/10.1007/s00468-014-1150-7.

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