Title: Contribution to the Bazzania flora of the Philippines. 1. Bazzania subtilis and similar species
Bazzania species that look similar to B. subtilis which were collected by the first and third author in the Philippines are described and illustrated. Amongst these specimens B. acanonista and B. globuliformis were described as new to sience. Furthermore B. herzogiana, B. sikkimensis, B. vittata, and B. wiltensii, mentioned by other authors for their similarity with B. subtilis are also included. The critical comparison with herbarium specimens stored under, named or synonymized with B. subtilis resulted in the separation of the newly described B. acanoserrata, B. helgana, B. helgana var. minor, B. palmatifidoides, and B. reicheliana. In addition, B. indigenarum, B. palmatifida, and B. pulchella were studied and found to be species worthy of recognition. more »« less
Mashburn, Brock; Ulloa Ulloa, Carmen; Muchhala, Nathan
(, Novon, A Journal for Botanical Nomenclature)
null
(Ed.)
Six species of Burmeistera H. Karst. & Triana are described as new from Ecuador: B. chrysothrix Mashburn & Muchhala, B. crocodila Mashburn & Muchhala, B. erosa Mashburn, B. lingulata Mashburn & Muchhala, B. sierrazulensis Mashburn & Muchhala, and B. valdiviana Mashburn. These discoveries bring the total number of Burmeistera species in Ecuador to ca. 47. Descriptions are given for each species, as well as diagnoses to differentiate them from other Burmeistera. Also provided is a discussion of each species’ etymology, phenology, and ecology, a list of all specimens examined, and distribution maps and photos, when available.
Dunn, Caroline M; Foust, Daniel J; Gao, Yongqiang; Biteen, Julie S; Shaw, Sidney L; Kearns, Daniel B
(, mBio)
Salama, Nina R
(Ed.)
ABSTRACT Flagella are complex, trans-envelope nanomachines that localize in species-specific patterns on the cell surface. Here, we study the localization dynamics of the earliest stage of basal body formation inBacillus subtilisusing a fluorescent fusion to the C-ring protein FliM. We find thatB. subtilisbasal bodies do not exhibit dynamic subunit exchange and are largely stationary at steady state, consistent with flagellar assembly through the peptidoglycan (PG). However, rare mobile basal bodies were observed, and the prevalence of mobile basal bodies is elevated both early in basal body assembly and when the rod is mutated. Thus, basal body mobility is a precursor to patterning, and we propose that rod polymerization probes the PG superstructure for pores of sufficient diameter to permit rod transit. Furthermore, mutation of the rod disrupts basal body patterning in a way that phenocopies mutation of the cytoplasmic flagellar patterning protein FlhF. We infer that rod synthesis and the cytoplasmic regulators coordinate flagellar assembly by interpreting a grid-like pattern of pores, pre-existent in the PG. IMPORTANCEBacteria insert flagella in a species-specific pattern on the cell body, but how patterns are achieved is poorly understood. In bacteria with a single polar flagellum, a marker protein localizes to the cell pole and nucleates the assembly of the flagellum at that site.Bacillus subtilisassembles ~25 basal bodies over the length of the cell in a grid-like pattern and lacks proteins required for their polar targeting. Here, we show thatB. subtilisbasal bodies are mobile soon after assembly and become immobilized when the flagellar rod transits the peptidoglycan (PG) wall. Moreover, defects in the flagellar rod lead to a more-random distribution of flagella and an increase in polar basal bodies. We conclude that the peritrichous patterning of flagella ofB. subtilisis different from the polar patterning of other bacteria, and we infer that theB. subtilisrod probes the PG for holes that can accommodate the machine.
Conway, Kevin W.; Moore, Glenn I.; Summers, Adam P.
(, ZooKeys)
A new genus and two new species of miniature clingfishes are described based on specimens collected from dense stands of macroalgae in intertidal and shallow subtidal areas along the coast of southern Australia. The new genus, Barryichthys , is distinguished from other genera of the Gobiesocidae by unique features of the adhesive disc, including elongate papillae in adhesive disc regions A and B, the reduction and/or loss of several elements of the cephalic lateral line canals, the lower gill arch skeleton, and the neurocranium, and by having two distinct types of pectoral-fin rays. Barryichthyshutchinsi is described based on 19 specimens (12.4–18.7 mm SL) from Western Australia and South Australia. Barryichthysalgicola is described based on 22 specimens (9.0–21.0 mm SL) from Victoria, New South Wales and Tasmania. The new species are distinguished from each other by characters of body and head shape, vertebral counts, and aspects of live colour pattern. The new genus shares several characters in common with Parvicrepis , another genus of miniature gobiesocids from southern Australia that also inhabits macroalgae habitats. The many reductions and novel characters of Barryichthys are discussed within the context of miniaturisation.
Abstract Engineered living materials (ELMs) are a fast-growing area of research that combine approaches in synthetic biology and material science. Here, we engineer B. subtilis to become a living component of a silica material composed of self-assembling protein scaffolds for functionalization and cross-linking of cells. B. subtilis is engineered to display SpyTags on polar flagella for cell attachment to SpyCatcher modified secreted scaffolds. We engineer endospore limited B. subtilis cells to become a structural component of the material with spores for long-term storage of genetic programming. Silica biomineralization peptides are screened and scaffolds designed for silica polymerization to fabricate biocomposite materials with enhanced mechanical properties. We show that the resulting ELM can be regenerated from a piece of cell containing silica material and that new functions can be incorporated by co-cultivation of engineered B. subtilis strains. We believe that this work will serve as a framework for the future design of resilient ELMs.
Uetz, Peter; Slavenko, Alex; Meiri, Shai; Heinicke, Matthew
(, Israel Journal of Ecology and Evolution)
1935 gecko species (and 224 subspecies) were known in December 2019 in seven families and 124 genera. These nearly 2000 species were described by ~950 individuals of whom more than 100 described more than 10 gecko species each. Most gecko species were discovered during the past 40 years. The primary type specimens of all currently recognized geckos (including subspecies) are distributed over 161 collections worldwide, with 20 collections having about two thirds of all primary types. The primary type specimens of about 40 gecko taxa have been lost or unknown. The phylogeny of geckos is well studied, with DNA sequences being available for ~76% of all geckos (compared to ~63% in other reptiles) and morphological characters now being collected in databases. Geographically, geckos occur on five continents and many islands but are most species-rich in Australasia (which also houses the greatest diversity of family-level taxa), Southeast Asia, Africa, Madagascar, and the West Indies. Among countries, Australia has the highest number of geckos (241 species), with India, Madagascar, and Malaysia being the only other countries with more than 100 described species each. As expected, when correcting for land area, countries outside the tropics have fewer geckos.
Schwarz, U, Schäfer-Verwimp, A, and Shevock, JR. Contribution to the Bazzania flora of the Philippines. 1. Bazzania subtilis and similar species. Retrieved from https://par.nsf.gov/biblio/10533679. Frahmia .
Schwarz, U, Schäfer-Verwimp, A, & Shevock, JR. Contribution to the Bazzania flora of the Philippines. 1. Bazzania subtilis and similar species. Frahmia, (). Retrieved from https://par.nsf.gov/biblio/10533679.
Schwarz, U, Schäfer-Verwimp, A, and Shevock, JR.
"Contribution to the Bazzania flora of the Philippines. 1. Bazzania subtilis and similar species". Frahmia (). Country unknown/Code not available: Frahmia. https://par.nsf.gov/biblio/10533679.
@article{osti_10533679,
place = {Country unknown/Code not available},
title = {Contribution to the Bazzania flora of the Philippines. 1. Bazzania subtilis and similar species},
url = {https://par.nsf.gov/biblio/10533679},
abstractNote = {Bazzania species that look similar to B. subtilis which were collected by the first and third author in the Philippines are described and illustrated. Amongst these specimens B. acanonista and B. globuliformis were described as new to sience. Furthermore B. herzogiana, B. sikkimensis, B. vittata, and B. wiltensii, mentioned by other authors for their similarity with B. subtilis are also included. The critical comparison with herbarium specimens stored under, named or synonymized with B. subtilis resulted in the separation of the newly described B. acanoserrata, B. helgana, B. helgana var. minor, B. palmatifidoides, and B. reicheliana. In addition, B. indigenarum, B. palmatifida, and B. pulchella were studied and found to be species worthy of recognition.},
journal = {Frahmia},
publisher = {Frahmia},
author = {Schwarz, U and Schäfer-Verwimp, A and Shevock, JR},
}
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