Rational engineering of low temperature activity in thermoalkalophilic Geobacillus thermocatenulatus lipase

While thermophilic enzymes have thermostability desired for broad industrial applications, they can lose activity at ambient temperatures far from their optimal. Engineering cold activity into thermophilic enzymes has the potential to broaden the range of temperatures resulting in significant activity (i.e., decreasing the temperature dependence of kcat). Even though it has been widely suggested that cold temperature enzyme activity results from active flexibility that is at odds with the rigidity necessary for thermostable enzymes; however, directed evolution experiments have shown us these properties are not mutually exclusive. In this study, rational protein engineering was used to introduce flexibility inducing mutations around the active sites of Geobacillus thermocatenulatus lipase (GTL). Two mutants were found to have enhanced specific activity compared to wild-type at temperatures between 283 K to 363 K with p-nitrophenol butyrate but not with larger substrates. Kinetics assay revealed both mutations resulted in psychrophilic traits, such as lower activation enthalpy and more negative entropy values compared to wild type in all substrates. Furthermore, the mutants had significantly improved thermostability compared to wild type enzyme, which proves that it is feasible to improve the cold activity without trade-off. Our study provides insight into the enzyme cold adaptation mechanism and design principles for engineering cold activity into thermostable enzymes.

Clinical Profiles Of Frostbite In University Airlangga Teaching Hospital Surabaya – A Case Report

Background: We report 3 adults who suffered frostbite of the hand and face following Mount Denali Expedition (6192 meters above sea level). The patients get rewarming and analgetics as a first treatment. All cases presented to our institution on day 11th following the injury. One was performed amputation on day 71st after injury.Methods: All cases received standart antibiotic treatment as well as 3 days hospital observation. At first, no surgery were performed in any case. Regular wound evaluation and rehabilitation then managed in outpatient basis. On day 71st, amputation of 3rd and 4th finger was performed on one patient.Results: All cases showed remarkable improvements of wound epithelialization, resolution of edema, range of motion, and general condition. Demarcation of any devitalized tissue showed clear margination during the period of observation. Such a condition were found in one of the case which showed prominent necrotic part on his 3rd and 4th finger. Hence, we perform debridement and amputation of 3rd and 4th finger.Conclusions: Although frostbite is rare in tropical countries, it may happen in particular those who partake in extreme cold activity such as mountain climbing and winter sports. Prevention and the right management will ensure a good outcome. After an appropriate conservative management at the onset, surgeons must opt for surgical management provided the demarcation of the wound becomes clear. Long-term follow-up management is necessary to achieve a good functional outcome. Preservation and if necessary reconstruction of the finger should become a priority in the patient management.

Screening and Virulence of the Entomopathogenic Fungi Associated with Chilo suppressalis Walker

The current study aimed to explore the entomopathogenic fungi associated with the larvae of Chilo suppressalis Walker, a serious pest of rice, in northern Iran. The collected specimens were cultured and identified through morphological and molecular methods. The 38 specimens were identified by microscopic examination and genetic sequencing of the ITS region as follows: twenty-one isolates of Beauveria bassiana, five isolates of Akanthomyces lecanii, four isolates of Akanthomyces muscarious, three isolates of Metarhizium anisopliae, two isolates of Hirsutella subulata, two isolates of Trichoderma sp. and one isolate of Aspergillus sp. All the identified isolates were treated on the larvae through bioassay, evaluating the amount of hydrophobin and the activities of proteases, chitinases and lipase to find their virulence. Moreover, the percentage of thermotolerant and cold activity of the isolates were tested to determine their environmental persistence. The overall results revealed the isolates of B. bassiana, including BBRR1, BBAL1 and BBLN1 as the most virulent and environmental adaptive isolates among the fungi associated with C. suppressalis.

Endolysins from Antarctic Pseudomonas Display Lysozyme Activity at Low Temperature

Organisms specialized to thrive in cold environments (so-called psychrophiles) produce enzymes with the remarkable ability to catalyze chemical reactions at low temperature. Cold activity relies on adaptive changes in the proteins’ sequence and structural organization that result in high conformational flexibility. As a consequence of flexibility, several such enzymes are inherently heat sensitive. Cold-active enzymes are of interest for application in a number of bioprocesses, where cold activity coupled with easy thermal inactivation can be of advantage. We describe the biochemical and functional properties of two glycosyl hydrolases (named LYS177 and LYS188) of family 19 (GH19), identified in the genome of an Antarctic marine Pseudomonas. Molecular evolutionary analysis placed them in a group of characterized GH19 endolysins active on lysozyme substrates, such as peptidoglycan. Enzyme activity peaks at about 25–35 °C and 40% residual activity is retained at 5 °C. LYS177 and LYS188 are thermolabile, with Tm of 52 and 45 °C and half-lives of 48 and 12 h at 37 °C, respectively. Bioinformatics analyses suggest that low heat stability may be associated to temperature-driven increases in local flexibility occurring mainly in a specific region of the polypeptide that is predicted to contain hot spots for aggregation.

Keratinocytes contribute to normal cold and heat sensation

Keratinocytes are the most abundant cell type in the epidermis, the most superficial layer of skin. Historically, epidermal-innervating sensory neurons were thought to be the exclusive detectors and transmitters of environmental stimuli. However, recent work from our lab (Moehring et al., 2018) and others (Baumbauer et al., 2015) has demonstrated that keratinocytes are also critical for normal mechanotransduction and mechanically-evoked behavioral responses in mice. Here, we asked whether keratinocyte activity is also required for normal cold and heat sensation. Using calcium imaging, we determined that keratinocyte cold activity is conserved across mammalian species and requires the release of intracellular calcium through one or more unknown cold-sensitive proteins. Both epidermal cell optogenetic inhibition and interruption of ATP-P2X4 signaling reduced reflexive behavioral responses to cold and heat stimuli. Based on these data and our previous findings, keratinocyte purinergic signaling is a modality-conserved amplification system that is required for normal somatosensation in vivo.