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A novel type I arabinogalactan (AG‐I) polysaccharide (EPS) from Epiphyllum oxypetalum (DC.) Haw's flowers is hypothesized to possess immunomodulatory activity. This study investigated EPS's effects on immune functions and its potential mechanism for enhancing intestinal health in immunosuppressed mice. The results showed that supplementing EPS significantly alleviated immune organ damage, increased the thymus index (p < 0.01), and regulated the key immune factors, including the tumor necrosis factor‐alpha (TNF‐α), immunoglobulin A (IgA), and complement 3 (C3) in the liver (p < 0.05). EPS promoted the expression of intestinal immune barrier and chemical barrier proteins such as interferon‐γ (IFN‐γ) and mucin 2 (MUC2) (p < 0.05), effectively repairing intestinal damage. EPS improved the diversity and structure of intestinal microbiota in immunosuppressed mice (p < 0.05) and significantly altered the abundance of intestinal immune‐related microbial taxa, including Lactobacillaceae and Lactobacillus (p < 0.01). Furthermore, EPS supplementation altered intestinal lactic acid metabolism, significantly increasing lactic acid levels by up to 3.4‐fold (p < 0.01), and enhanced the expression of Gpr81, Wnt3a, and β‐catenin proteins at the bottom of the colonic crypts, which may repair the intestinal physical barrier. Overall, EPS represents a novel AG‐I immunomodulatory dietary polysaccharide that enhances immunity and improves gut health. A new type I arabinogalactan (AG‐I) polysaccharide from Epiphyllum oxypetalum (DC.) Haw's flowers (EPS) has immunomodulatory activity in the body. Furthermore, EPS supplementation altered intestinal lactic acid metabolism and enhanced the expression of repair proteins at the base of colonic crypts. Overall, EPS represents a novel AG‐I immunomodulatory dietary polysaccharide that enhances immunity and improves intestinal health.

Haptorian ciliates in the closely similar genera Kentrophyllum and Epiphyllum possess a unique pattern of ciliature and are distinguished from one another only by the presence or absence of cytoplasmic spines projecting from the margin of the cell. Phylogenetic analyses based on SSU rDNA sequences of three new samples from coastal habitats in China revealed that species in the two genera clustered together indiscriminately (i.e. forms of neither genus clustered into an independent clade) as a maximally supported, monophyletic clade that branches basally to all other clades in the order Pleurostomatida and is strongly divergent from other members of the family in which the genera have been placed. As a result, we propose that Epiphyllum be synonymized with Kentrophyllum and that a new family Kentrophyllidae fam. n. be established for the genus. We hypothesize that the two-sutures of Kentrophyllum is a plesiomorphy within the Pleurostomatida and the unique peripheral kinety might represent an autapomorphy of Kentrophyllum. In addition, we provide a taxonomic revision of Kentrophyllum including description of three new species (K. bispinum sp. n., K. strumosum sp. n., and K. qingdaoense sp. n.), redescription of K. verrucosum (Stokes, 1893) Petz et al., 1995, and three new combinations (K. soliforme (Faure-Fremiet, 1908) comb. n., K. hohuensis (Wang and Nie, 1933) comb. n. and K. shenzhenense (Pan et al., 2010) comb. n.). The surface ultrastructure of the genus Kentrophyllum is recorded for the first time. And a key to all known species of Kentrophyllum was also suggested.

A new virus with sequence similarities to members of the genus Cavemovirus in the family Caulimoviridae was identified in an Epiphyllum hybrid. The complete genome of the virus, tentatively named “epiphyllum virus 4” (EpV-4), was determined to be 7,296 nucleotides long. Its circular genome organization is typical of cavemoviruses, containing four open reading frames. This virus and the two known cavemoviruses share 67-69% and 72-75% overall nucleotide sequence identity in the replicase gene. Phylogenetic analysis placed EpV-4 in a same cluster with the two recognized cavemoviruses. Thus, EpV-4 should be considered a representative of a third species of the genus Cavemovirus. The virus was transmitted by grafting.

The Hylocereeae is a monophyletic group in which eight genera are recognized based on molecular data. However, relationships between the genera remain partially resolved. In this study, combined analyses of molecular and structural characters for Hylocereeae were carried out with the aims of finding structural synapomorphies that support the genera and to resolve relationships between them. We studied sixty-nine species of the eight genera of Hylocereeae, as well as six Echinocereeae species as outgroup using light microscopy and scanning electron microscopy. Thirty-six morpho-anatomical characters were incorporated into a matrix and analyzed in combination with sequences of four chloroplast DNA regions. Phylogenetic analyses using maximum parsimony, maximum likelihood, and Bayesian inference yielded a robust phylogenetic hypothesis and showed morphological synapomorphies. Four of the genera ( Acanthocereus , Aporocactus , Epiphyllum , and Kimnachia ) have at least one structural synapomorphy. Disocactus and Pseudorhipsalis can be recognized by a combination of characters, while Selenicereus and Weberocereus cannot be recognized by any structural vegetative character. There are structural synapomorphies that allow recognizing relationships between genera. The cortical and vascular characters are as important as the epidermal traits, a condition that had not been reported for another group within Cactaceae.

The present study was carried out in Epiphyllum oxypetalum flower to analyse the bioactive compounds present in it. Epiphyllum oxypetalum is a unique plant which blooms only in the night month of June to September. The bioactive compounds obtained from medicinal plant have been treated for various ailments caused by micro-organism and it has been analysed with various part of the plant but not in the flower of this plant. Extraction was carried out by using flower sample using maceration method with solvents such as chloroform, ethanol, hexane and aqueous. The crude extracted sample was tested for phytochemical activity, and it showed the presence of compounds such as alkaloids, saponins, proteins and amino acids, terpenoids, steroids, flavonoids, and tannins. Thin layer Chromatography and Column chromatography was performed with the formation of 4 bands in the ethanol extract. The purified sample has been further analysed using Gas chromatography-Mass spectrometry [GC-MS] to check the phytocompounds present in the sample. The first compound identified with less retention time (2.86min) was Hexadecanoic acid, ethyl ester and the last compound which took long retention time (30.81min) was Pterin-6- carboxylic acid. Thus, these plant compounds could be isolated in future to explore their diverse biological activities.

Epiphyllum, Hylocereus, and Opuntia plants belong to the Cactaceae family. They are mostly known as ornamental plants but also for their edible fruits, which can potentially be sources of betalains, such as betanin, a natural pigment used in the food industry, e.g., under the European label code E 162. The aim of this work was the identification of betalains (using LC-MS/MS), evaluation of total betalain content (spectrophotometrically), analysis of functional groups (using FT-IR), evaluation of antioxidant activity (using DPPH, ABTS, FRAP, DCFH-DA, and reducing power methods) and evaluation of antimicrobial activity (S. aureus, E. coli, and C. albicans) in fruits of Epiphyllum, Hylocereus, and Opuntia taxa. A total of 20 betalains were identified in the studied Cactaceae fruits. The Epiphyllum pink hybrid had the highest values of total betalains amongst all samples. The highest antioxidant activity was observed in the Epiphyllum pink hybrid, in Opuntia zacuapanensis and O. humifusa fruits. The antimicrobial activity assay showed that cacti fruits were not able to effectively inhibit the growth of E. coli, S. aureus, or C. albicans. Our results prove that these fruits are good sources of natural pigments—betalains. They do not contain toxic compounds in significant amounts and they exhibit antioxidant activity.

Cerrado sensu stricto (a physiognomy of the Cerrado domain, the Brazilian savanna) is subject to the annual occurrence of fire. Data on the epiphytic community in this physiognomy is scarce, as is evaluation of the influence of fire on its structure and composition. The aim of this study was to describe the structure of the vascular epiphyte community and its relationships with phorophytes in the Cerrado domain, Southeast Region of Brazil, after the passage of fire. We found the greatest abundance of epiphytes in the upper strata (65% of the individuals occurring above 3 m in height) and the dominance of three generalist species (Tillandsia streptocarpa, T. recurvata and Epiphyllum phyllanthus), suggesting that fire has an influence on the structure and composition of the epiphytic community.

Vivipary, the germination of seeds before they are shed from the parent plant, is a rare event in angiosperms involving complex ecophysiological processes. Pseudovivipary and cryptovivipary occur in approximately 30 (2%) species of the cactus family. A remarkable case of vivipary in Epiphyllum phyllanthus is described here. Information is provided regarding the biology of viviparous fruits, morphology, mortality, survival rates of viviparous offspring, and some eco-evolutionary implications of this reproductive strategy in the Cactaceae. This epiphytic cactus has no host-specific relationship. A low proportion (33.3%) of individuals produced viviparous fruits. Seed number/fruit varied from 197 to 230 with percentage of viviparous germination from 97.5% to 99%. The viviparous seedlings exhibited normal development and were no different from non-viviparous offspring. Transplanting experiments showed that the first week is critical for seedling establishment, and high mortality occurred in the three treatments used: 69% on the phorophyte surface, 58.6% on the ground, and 44.8% under controlled conditions. The number of survivors gradually stabilized, and the contribution to establishment was comparable in each of the treatments after the acclimation phase. It is suggested that vivipary is associated with thermoregulation, parental care, conspecific nursing, and rapid seedling establishment. Germination is not a limiting factor in the perpetuation of this viviparous species, but seedling establishment is. In viviparous individuals of E. phyllanthus, seedling mortality during establishment rather than failure to germinate within the fruit is a limiting factor affecting local population density. Overall, viviparity is an intrinsic, genetic event involving high metabolic costs favouring germination and dispersal of the fittest offspring regardless of substrate and environmental conditions.

Questions: Ant-gardens (AGs) involve a close association between epiphytes and ants with concurrent mutualistic interactions including protection, dispersal and nutrition; however, little is known about the spatial structure patterns that determine their establishment and formation. Our main questions were: (1) do AGs have a particular pattern of vertical distribution on their host trees; (2) does a process of succession of epiphytes occur during development of AGs; and (3) are epiphytes segregated in AGs? Location: Anthropic landscape in southeast Mexico. Methods: We studied AGs built by Azteca gnava ants. We examined their vertical distribution on host trees as well as the diversity, composition and reproductive status of vascular epiphytes associated with the lower, middle and upper zones of small, medium and large AGs. Results: A total of 859 AGs and 10 871 epiphytes, belonging to 26 different species, were recorded. We found that AGs are primarily (75%) located within tree crowns, and that the diversity and composition of epiphytes vary among AG sizes and among AG zones. We infer that the epiphytes that first become established in AGs are the bromeliad Aechmea tillandsioides and the gesneriad Codonanthe uleana, followed by the orchid Epidendrum flexuosum and the cactus Epiphyllum phyllanthus; these species were recorded, either individually or in cooccurrence, in 74% of the AGs examined. The species Ae. tillandsioides, Coryanthes picturata and Epid. flexuosum were most frequent in the upper AG zone, while Epid. pachyrachis was most frequent in the middle AG zone. Conclusions: Our results show that AGs have distinct vertical distribution patterns on their tree hosts and that the establishment of epiphytes in AGs is successive and segregated, suggesting spatial and temporal optimization in the establishment and development of these complex mutualistic systems.

Haptorian ciliates in the closely similar genera Kentrophyllum and Epiphyllum possess a unique pattern of ciliature and are distinguished from one another only by the presence or absence of cytoplasmic spines projecting from the margin of the cell. Phylogenetic analyses based on SSU rDNA sequences of three new samples from coastal habitats in China revealed that species in the two genera clustered together indiscriminately (i.e. forms of neither genus clustered into an independent clade) as a maximally supported, monophyletic clade that branches basally to all other clades in the order Pleurostomatida and is strongly divergent from other members of the family in which the genera have been placed. As a result, we propose that Epiphyllum be synonymized with Kentrophyllum and that a new family Kentrophyllidae fam. n. be established for the genus. We hypothesize that the two-sutures of Kentrophyllum is a plesiomorphy within the Pleurostomatida and the unique peripheral kinety might represent an autapomorphy of Kentrophyllum. In addition, we provide a taxonomic revision of Kentrophyllum including description of three new species (K. bispinum sp. n., K. strumosum sp. n., and K. qingdaoense sp. n.), redescription of K. verrucosum (Stokes, 1893) Petz et al., 1995, and three new combinations (K. soliforme (Fauré-Fremiet, 1908) comb. n., K. hohuensis (Wang and Nie, 1933) comb. n. and K. shenzhenense (Pan et al., 2010) comb. n.). The surface ultrastructure of the genus Kentrophyllum is recorded for the first time. And a key to all known species of Kentrophyllum was also suggested.