LC-MSn and HR-MS characterization of secondary metabolites from Hypericum japonicum Thunb. ex Murray from Nepalese Himalayan region and assessment of cytotoxic effect and inhibition of NF-κB and AP-1 transcription factors in vitro

Blue emitting, up-converting NP's of SrTiO3:Tm3+/Yb3+ synthesized using the citric route are biocompatible towards J774.E whereas the cytotoxic effect to U2OS cells is not particle size dependent but most probably is related to Sr2+ ion release.

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Molecular Characterization of HOXA2 and HOXA3 Binding Properties

Journal of Developmental Biology ◽

10.3390/jdb9040055 ◽

2021 ◽

Vol 9 (4) ◽

pp. 55

Author(s):

Joshua Mallen ◽

Manisha Kalsan ◽

Peyman Zarrineh ◽

Laure Bridoux ◽

Shandar Ahmad ◽

...

Keyword(s):

Transcription Factors ◽

Molecular Characterization ◽

Sequence Motif ◽

Body Parts ◽

Binding Affinities ◽

Binding Properties ◽

Functional Consequences

The highly conserved HOX homeodomain (HD) transcription factors (TFs) establish the identity of different body parts along the antero–posterior axis of bilaterian animals. Segment diversification and the morphogenesis of different structures is achieved by generating precise patterns of HOX expression along the antero–posterior axis and by the ability of different HOX TFs to instruct unique and specific transcriptional programs. However, HOX binding properties in vitro, characterised by the recognition of similar AT-rich binding sequences, do not account for the ability of different HOX to instruct segment-specific transcriptional programs. To address this problem, we previously compared HOXA2 and HOXA3 binding in vivo. Here, we explore if sequence motif enrichments observed in vivo are explained by binding affinities in vitro. Unexpectedly, we found that the highest enriched motif in HOXA2 peaks was not recognised by HOXA2 in vitro, highlighting the importance of investigating HOX binding in its physiological context. We also report the ability of HOXA2 and HOXA3 to heterodimerise, which may have functional consequences for the HOX patterning function in vivo.

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IN VITRO ANTIMICROBIAL ACTIVITY, OPTIMIZATION OF BIOACTIVE SECONDARY METABOLITES AND MOLECULAR CHARACTERIZATION OF BACILLUS SUBTILIS ISOLATED FROM SOILS OF WESTERN GHATS, INDIA

International Research Journal of Pharmacy ◽

10.7897/2230-8407.1005191 ◽

2019 ◽

Vol 10 (5) ◽

pp. 205-212

Author(s):

A Ram Kumar ◽

R Ramesh ◽

D Thamilvanan ◽

A Stephen ◽

S Kumaresan

Keyword(s):

Antimicrobial Activity ◽

Bacillus Subtilis ◽

Secondary Metabolites ◽

Molecular Characterization ◽

Western Ghats ◽

In Vitro Antimicrobial Activity ◽

Bioactive Secondary Metabolites ◽

Activity Optimization

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The in vivo impact of MsLAC1, a Miscanthus laccase isoform, on lignification and lignin composition contrasts with its in vitro substrate preference

BMC Plant Biology ◽

10.1186/s12870-019-2174-3 ◽

2019 ◽

Vol 19 (1) ◽

Author(s):

Feng He ◽

Katja Machemer-Noonan ◽

Philippe Golfier ◽

Faride Unda ◽

Johanna Dechert ◽

...

Keyword(s):

Cell Wall ◽

Transcription Factors ◽

Lignin Content ◽

Lignin Biosynthesis ◽

Lignin Composition ◽

Xylem Fibers ◽

Breeding Target

Abstract Background Understanding lignin biosynthesis and composition is of central importance for sustainable bioenergy and biomaterials production. Species of the genus Miscanthus have emerged as promising bioenergy crop due to their rapid growth and modest nutrient requirements. However, lignin polymerization in Miscanthus is poorly understood. It was previously shown that plant laccases are phenol oxidases that have multiple functions in plant, one of which is the polymerization of monolignols. Herein, we link a newly discovered Miscanthus laccase, MsLAC1, to cell wall lignification. Characterization of recombinant MsLAC1 and Arabidopsis transgenic plants expressing MsLAC1 were carried out to understand the function of MsLAC1 both in vitro and in vivo. Results Using a comprehensive suite of molecular, biochemical and histochemical analyses, we show that MsLAC1 localizes to cell walls and identify Miscanthus transcription factors capable of regulating MsLAC1 expression. In addition, MsLAC1 complements the Arabidopsis lac4–2 lac17 mutant and recombinant MsLAC1 is able to oxidize monolignol in vitro. Transgenic Arabidopsis plants over-expressing MsLAC1 show higher G-lignin content, although recombinant MsLAC1 seemed to prefer sinapyl alcohol as substrate. Conclusions In summary, our results suggest that MsLAC1 is regulated by secondary cell wall MYB transcription factors and is involved in lignification of xylem fibers. This report identifies MsLAC1 as a promising breeding target in Miscanthus for biofuel and biomaterial applications.

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Defining the human C2H2 zinc finger degrome targeted by thalidomide analogs through CRBN

Science ◽

10.1126/science.aat0572 ◽

2018 ◽

Vol 362 (6414) ◽

pp. eaat0572 ◽

Cited By ~ 87

Author(s):

Quinlan L. Sievers ◽

Georg Petzold ◽

Richard D. Bunker ◽

Aline Renneville ◽

Mikołaj Słabicki ◽

...

Keyword(s):

Transcription Factors ◽

Small Molecules ◽

Zinc Finger ◽

Ubiquitin Ligase ◽

Biochemical Analysis ◽

Zinc Fingers ◽

Functional Characterization ◽

C2h2 Zinc Finger

The small molecules thalidomide, lenalidomide, and pomalidomide induce the ubiquitination and proteasomal degradation of the transcription factors Ikaros (IKZF1) and Aiolos (IKZF3) by recruiting a Cys2-His2 (C2H2) zinc finger domain to Cereblon (CRBN), the substrate receptor of the CRL4CRBN E3 ubiquitin ligase. We screened the human C2H2 zinc finger proteome for degradation in the presence of thalidomide analogs, identifying 11 zinc finger degrons. Structural and functional characterization of the C2H2 zinc finger degrons demonstrates how diverse zinc finger domains bind the permissive drug-CRBN interface. Computational zinc finger docking and biochemical analysis predict that more than 150 zinc fingers bind the drug-CRBN complex in vitro, and we show that selective zinc finger degradation can be achieved through compound modifications. Our results provide a rationale for therapeutically targeting transcription factors that were previously considered undruggable.

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Effects of gamma irradiation on the alkaloid content in seeds of Datura stramonium and the radiosensitivity of derived seedlings

Plant Science Today ◽

10.14719/pst.2019.6.4.634 ◽

2019 ◽

Vol 6 (4) ◽

pp. 533-540

Author(s):

Nabila Benslimani ◽

Madjda Khelifi-Slaoui ◽

Abdelkader Morsli ◽

Amar Djerrad ◽

Ezz Al-Dein Al-Ramamneh ◽

...

Keyword(s):

Secondary Metabolites ◽

Gamma Rays ◽

Damage Index ◽

Tropane Alkaloids ◽

Datura Stramonium ◽

Hyoscyamus Niger ◽

Morphological Variations ◽

Solanaceae Family

Tropane alkaloids are a group of secondary metabolites occurring naturally in Solanaceae family as Atropa belladona, Datura stramonium, Mandragora officinalis, and Hyoscyamus niger. These molecules have valuable therapeutic applications, for example, atropine and hyoscyamine are utilized as antimuscarinic besides being stomach and intestinal diseases drugs. Plants of the Solanaceae family can provide a natural yet less expensive source of these compounds. Hitherto, in order to emphasize these metabolites biosynthesis, D. stramonium seeds were irradiated using a cobalt-60 source of gamma rays of 5 to 80 Gy and germinated in vitro on MS medium in growth controlled chamber. Mutagenesis of D. stramonium seeds was attempted aiming at obtaining plants from in vitro source that are genetically variable for enhancing the biosynthesis of secondary metabolites, namely alkaloids. Results indicated that D. stramonium seeds exhibited a good radiosensitivity and the mutagen damage index GR (30-50) for D. stramonium was determined at 80 Gy. The Characterization of alkaloids (Atropine and hyoscyamine) was done by infrared spectroscopy which showed that alkaloids content of the irradiated seeds is altered by irradiation as the reference bands were not found with all doses used. In addition, seedlings grown from irradiated in vitro seeds exhibited remarkable morphological variations that varied based on the employed dose of gamma rays. These findings permitted the selection of the optimal irradiation dose (80 Gy) to induce mutations that are likely to prompt changes at genetic and metabolic level of the targeted alkaloids.

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Comprehensive Characterization of Secondary Metabolites from Colebrookea oppositifolia (Smith) Leaves from Nepal and Assessment of Cytotoxic Effect and Anti-Nf-κB and AP-1 Activities In Vitro

International Journal of Molecular Sciences ◽

10.3390/ijms21144897 ◽

2020 ◽

Vol 21 (14) ◽

pp. 4897

Author(s):

Gregorio Peron ◽

Jan Hošek ◽

Ganga Prasad Phuyal ◽

Dharma Raj Kandel ◽

Rameshwar Adhikari ◽

...

Keyword(s):

Secondary Metabolites ◽

Inflammatory Diseases ◽

Full Potential ◽

Phytochemical Screening ◽

Cytotoxic Compounds ◽

Anti Inflammatory ◽

Potential Use ◽

Comprehensive Characterization

Here we report the comprehensive characterization of the secondary metabolites from the leaves of Colebrookea oppositifolia Smith, a species used as medicinal plant in the traditional medicine of Nepal. Phytochemical screening of bioactives was performed using an integrated LC-MSn and high resolution MS (Mass Spectrometry) approach. Forty-three compounds were tentatively identified, mainly aglyconic and glycosilated flavonoids and phenolic acids, as well as other bioactives such as coumarins and terpenes were detected. Furthermore, the NF-κB and AP-1 inhibitory activity of C. oppositifolia extract were evaluated, as well as its cytotoxicity against THP-1 cells, in order to assess the potential use of this herb as a source of anti-inflammatory and cytotoxic compounds. The results so far obtained indicate that C. oppositifolia leaves extract could significantly reduce the viability of THP-1 cells (IC50 = 6.2 ± 1.2 µg/mL), as well as the activation of both NF-κB and AP-1 at the concentration of 2 μg/mL. Our results indicate that Nepalese C. oppositifolia is a valuable source of anti-inflammatory and cytotoxic compounds. The phytochemical composition reported here can partially justify the traditional uses of C. oppositifolia in Nepal, especially in the treatment of inflammatory diseases, although further research will be needed to assess the full potential of this species.

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Determining Aspergillus fumigatus transcription factor expression and function during invasion of the mammalian lung

10.1101/2020.12.23.424128 ◽

2020 ◽

Author(s):

Hong Liu ◽

Wenjie Xu ◽

Vincent M. Bruno ◽

Quynh T. Phan ◽

Norma V. Solis ◽

...

Keyword(s):

Transcription Factor ◽

Transcription Factors ◽

Secondary Metabolites ◽

Invasive Aspergillosis ◽

Aspergillus Fumigatus ◽

Transcriptional Profiling ◽

Transcriptional Response ◽

Transcription Factor Genes

AbstractTo gain a better understanding of the transcriptional response of Aspergillus fumigatus during invasive pulmonary infection, we used a NanoString nCounter to assess the transcript levels of 467 A. fumigatus genes during growth in the lungs of immunosuppressed mice. These genes included ones known to respond to diverse environmental conditions and those encoding most transcription factors in the A. fumigatus genome. We found that invasive growth in vivo induces a unique transcriptional profile as the organism responds to nutrient limitation and attack by host phagocytes. This in vivo transcriptional response is largely mimicked by in vitro growth in Aspergillus minimal medium that is deficient in nitrogen, iron, and/or zinc. From the transcriptional profiling data, we selected 9 transcription factor genes that were either highly expressed or strongly up-regulated during in vivo growth. Deletion mutants were constructed for each of these genes and assessed for virulence in mice. Two transcription factor genes were found to be required for maximal virulence. One was rlmA, which governs the ability of the organism to proliferate in the lung. The other was ace1, which regulates of the expression of multiple secondary metabolite gene clusters and mycotoxin genes independently of laeA. Using deletion and overexpression mutants, we determined that the attenuated virulence of the Δace1 mutant is due to decreased expression aspf1, which specifies a ribotoxin, but is not mediated by reduced expression of the fumigaclavine gene cluster or the fumagillin-pseruotin supercluster. Thus, in vivo transcriptional profiling focused on transcription factors genes provides a facile approach to identifying novel virulence regulators.Author summaryAlthough A. fumigatus causes the majority of cases of invasive aspergillosis, the function of most of the genes in its genome remains unknown. To identify genes encoding transcription factors that may be important for virulence, we used a NanoString nCounter to measure the mRNA levels of A. fumigatus transcription factor genes in the lungs of mice with invasive aspergillosis. The transcriptional profiling data indicate that the organism is exposed to nutrient limitation and stress during growth in the lungs, and that it responds by up-regulating genes that encode mycotoxins and secondary metabolites. In vitro, this response was most closely mimicked by growth in medium that was deficient in nitrogen, iron and/or zinc. Using the transcriptional profiling data, we identified two transcription factors that govern A. fumigatus virulence. These were RlmA, which is governs proliferation in the lung and Ace1, which controls the production of mycotoxins and secondary metabolites.

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