Culturable and unculturable potential heterotrophic microbiological threats to the oldest pyramids of the Memphis necropolis, Egypt.

A large percentage of the world's tangible cultural heritage is made from stone; thus, it deteriorates due to physical, chemical, and/or biological factors. The current study explored the microbial community inhabiting two prehistoric sites with high cultural value in the Memphis necropolis of Egypt (Djoser and Lahun Pyramids) using amplicon-based metabarcoding and culture-dependent isolation methods. Samples were examined by epifluorescent microscopy for biological signs before environmental DNA extraction and cultivation.

aroF and cm2: potential molecular markers for the detection of stone-inhabiting Actinobacteria on cultural heritage sites.

Tangible archeological sites and stone monuments are naturally decayed and deteriorated over time, providing substances that can sustain life, although they provide a complicated ecosystem characterized by low nutrition and desiccation. Stone-inhabiting bacteria (SIB) and especially members of the phylum Actinobacteria dominate such environments, particularly the members of the family Geodermatophilaceae. We used the published data of two confirmed SIB species to mine their genomes for specific molecular markers to rapidly survey the presence of SIB in cultural heritage material prior to further analysis.

An indigenous inland genotype of the black yeast inhabiting the great pyramid of Giza, Egypt.

Within the context of cultural heritage conservation, the biological study of tangible archeological sites is an important task to extend their existence and strengthen the transmission of their cultural value to future generations. In Egypt, a hyper-arid region, a microcolonial fungus with inky black growth was observed on a stone surface in the royal corridor of the Great Pyramid of Giza (King Khufu's pyramid). The isolate was studied and characterized by microscopic morphometric measurements, evaluation of enzymatic activities, and genotyping techniques.

Microbial Profiling of Potato-Associated Rhizosphere Bacteria under Bacteriophage Therapy.

Potato soft rot and wilt are economically problematic diseases due to the lack of effective bactericides. Bacteriophages have been studied as a novel and environment-friendly alternative to control plant diseases. However, few experiments have been conducted to study the changes in plants and soil microbiomes after bacteriophage therapy.

A New Extremotolerant Ecotype of the Fungus Isolated from Djoser Pyramid, Memphis Necropolis, Egypt.

Most of the rock-inhabiting fungi are meristematic and melanized microorganisms often associated with monument biodeterioration. In previous microbial profiling of the Egyptian Djoser pyramid, a isolate was found. The current study aimed to characterize the isolated from the Djoser pyramid compared with an Italian isolate at morphological, physiological, and molecular levels.

Peripatric speciation associated with genome expansion and female-biased sex ratios in the moss genus Ceratodon.

Premise Of The Study: A period of allopatry is widely believed to be essential for the evolution of reproductive isolation. However, strict allopatry may be difficult to achieve in some cosmopolitan, spore-dispersed groups, like mosses. We examined the genetic and genome size diversity in Mediterranean populations of the moss Ceratodon purpureus s.