17 results on '"Batke, S."'
Search Results
2. Increasing stomatal conductance in response to rising atmospheric CO2.
- Author
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Purcell, C, Batke, S P, Yiotis, C, Caballero, R, Soh, W K, Murray, M, and McElwain, J C
- Subjects
- *
STOMATA , *CLIMATE change , *CARBON dioxide , *HYDROGEN , *HYDROLOGICAL surveys - Abstract
Background and Aims Studies have indicated that plant stomatal conductance (gs) decreases in response to elevated atmospheric CO2, a phenomenon of significance for the global hydrological cycle. However, gs increases across certain CO2 ranges have been predicted by optimization models. The aim of this work was to demonstrate that under certain environmental conditions, gs can increase in response to elevated CO2. Methods Using (1) an extensive, up-to-date synthesis of gs responses in free air CO2 enrichment (FACE) experiments, (2) in situ measurements across four biomes showing dynamic gs responses to a CO2 rise of ~50 ppm (characterizing the change in this greenhouse gas over the past three decades) and (3) a photosynthesis-stomatal conductance model, it is demonstrated that gs can in some cases increase in response to increasing atmospheric CO2. Key Results Field observations are corroborated by an extensive synthesis of gs responses in FACE experiments showing that 11.8 % of gs responses under experimentally elevated CO2 are positive. They are further supported by a strong data-model fit (r2 = 0.607) using a stomatal optimization model applied to the field gs dataset. A parameter space identified in the Farquhar-Ball-Berry photosynthesis-stomatal conductance model confirms field observations of increasing gs under elevated CO2 in hot dry conditions. Contrary to the general assumption, positive gs responses to elevated CO2, although relatively rare, are a feature of woody taxa adapted to warm, low-humidity conditions, and this response is also demonstrated in global simulations using the Community Land Model (CLM4). Conclusions The results contradict the over-simplistic notion that global vegetation always responds with decreasing gs to elevated CO2, a finding that has important implications for predicting future vegetation feedbacks on the hydrological cycle at the regional level. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
3. Increasing stomatal conductance in response to rising atmospheric CO2.
- Author
-
Purcell, C, Batke, S P, Yiotis, C, Caballero, R, Soh, W K, Murray, M, and McElwain, J C
- Subjects
STOMATA ,CLIMATE change ,CARBON dioxide ,HYDROGEN ,HYDROLOGICAL surveys - Abstract
Background and Aims Studies have indicated that plant stomatal conductance (gs) decreases in response to elevated atmospheric CO
2 , a phenomenon of significance for the global hydrological cycle. However, gs increases across certain CO2 ranges have been predicted by optimization models. The aim of this work was to demonstrate that under certain environmental conditions, gs can increase in response to elevated CO2 . Methods Using (1) an extensive, up-to-date synthesis of gs responses in free air CO2 enrichment (FACE) experiments, (2) in situ measurements across four biomes showing dynamic gs responses to a CO2 rise of ~50 ppm (characterizing the change in this greenhouse gas over the past three decades) and (3) a photosynthesis-stomatal conductance model, it is demonstrated that gs can in some cases increase in response to increasing atmospheric CO2 . Key Results Field observations are corroborated by an extensive synthesis of gs responses in FACE experiments showing that 11.8 % of gs responses under experimentally elevated CO2 are positive. They are further supported by a strong data-model fit (r2 = 0.607) using a stomatal optimization model applied to the field gs dataset. A parameter space identified in the Farquhar-Ball-Berry photosynthesis-stomatal conductance model confirms field observations of increasing gs under elevated CO2 in hot dry conditions. Contrary to the general assumption, positive gs responses to elevated CO2 , although relatively rare, are a feature of woody taxa adapted to warm, low-humidity conditions, and this response is also demonstrated in global simulations using the Community Land Model (CLM4). Conclusions The results contradict the over-simplistic notion that global vegetation always responds with decreasing gs to elevated CO2 , a finding that has important implications for predicting future vegetation feedbacks on the hydrological cycle at the regional level. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
4. Epiphytes: a study of the history of forest canopy research
- Author
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Batke, S.
- Subjects
canopy ,climate change ,canopy walkways ,canopy organisms ,forest degradation ,Epiphytes ,forest canopies - Abstract
The development of new and more versatile access techniques is a major contributor to the continuously growing field of canopy research. Methods such as cranes, canopy walkways, hot-air balloons, ladders and rope access techniques enabled scientist for the first time to conduct proximate studies of canopy organisms. One of the most studied groups of canopy dwellers are epiphytes. With their versatile adaptations to a life above ground level and their vast abundance, epiphytes contribute profoundly to the forest diversity and ecosystem processes. Most epiphytes have species-specific habitat preference within individual phorophytes. However these preferences are limited by biotic and abiotic factors. As a result epiphytes are threatened by forest degradation and climate change. More research is necessary to assess their importance within and between ecosystems and their role in direct and indirect forest processes. Furthermore future research on epiphytic plants needs to focus more on biotic interactions such as herbivory, pathogens and competition.
- Published
- 2012
5. Diamidophosphines with six-membered chelates and their coordination chemistry with group 4 metals: development of a trimethylene-methane-tethered [PN2]-type “molecular claw”
- Author
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Batke, S., primary, Kothe, T., additional, Haas, M., additional, Wadepohl, H., additional, and Ballmann, J., additional
- Published
- 2016
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6. Diamidophosphines with six-membered chelates and their coordination chemistry with group 4 metals: development of a trimethylene-methane-tethered [PN2]-type “molecular claw”.
- Author
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Batke, S., Kothe, T., Haas, M., Wadepohl, H., and Ballmann, J.
- Subjects
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PHOSPHINE , *COORDINATION compounds , *CHELATES , *CYCLOPROPANE , *LIGANDS (Chemistry) - Abstract
The coordination chemistry of the phosphine-tethered diamidophosphine ligands PhP(CH2CH2CH2NHPh)2 (pr[NPN]H2) and PhP(1,2-CH2-C6H4-NHSiMe3)2 (bn[NPN]H2) featuring six-membered N–C3–P chelates was explored with group 4 metals, which allowed for the consecutive development of a new trimethylene-methane-tethered [PN2] scaffold. In the case of the propylene-linked system pr[NPN]H2, access to the sparingly soluble dibenzyl derivative pr[NPN]ZrBn2 (3-Zr) was gained, while thermally sensitive zirconium and hafnium diiodo complexes bn[NPN]MI2 (5-M, M = Zr, Hf) were isolated in the case of the benzylene-linked derivative bn[NPN]H2. Despite the related phosphine-tethered backbone architectures of both of these ligands, their group 4 complexes were found to exhibit either C1-symmetric (bn[NPN]MX2) or averaged CS-symmetric (pr[NPN]MX2) structures in solution. To restrain the overall flexibility of these systems and thereby control the properties of the resulting complexes without disrupting the six-membered chelates, the new trimethylene-methane-tethered N,N′-di-(tert-butyl)-substituted [PN2]H2 protioligand was designed. This tripodal ligand system was prepared on a gram scale and its CS-symmetric dichloro complexes [PN2]MCl2 (6-M, M = Ti, Zr, Hf) were isolated subsequently. The benzene-soluble dibenzyl derivative [PN2]ZrBn2 (7-Zr) was synthesised as well and characterised by X-ray diffraction. These results are discussed not only in conjunction with the known [NPN]-coordinated group 4 complexes incorporating five-membered chelates, but also in the context of “molecular claws” that are related to the new [PN2] tripod. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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- View/download PDF
7. Increasing stomatal conductance in response to rising atmospheric CO2.
- Author
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Purcell, C, Batke, S P, Yiotis, C, Caballero, R, Soh, W K, Murray, M, and McElwain, J C
- Subjects
- *
STOMATA , *ATMOSPHERIC carbon dioxide - Abstract
A correction is presented to the article "Increasing stomatal conductance in response to rising atmospheric CO2" which was published in previous issue of the periodical.
- Published
- 2018
- Full Text
- View/download PDF
8. Increasing stomatal conductance in response to rising atmospheric CO2.
- Author
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Purcell, C, Batke, S P, Yiotis, C, Caballero, R, Soh, W K, Murray, M, and McElwain, J C
- Subjects
STOMATA ,ATMOSPHERIC carbon dioxide - Abstract
A correction is presented to the article "Increasing stomatal conductance in response to rising atmospheric CO2" which was published in previous issue of the periodical.
- Published
- 2018
- Full Text
- View/download PDF
9. Phylogenetic diversity and the structure of host-epiphyte interactions across the Neotropics.
- Author
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Pie MR, Caron FS, Dallimore T, Einzmann H, Hietz P, Kessler M, Ramos FN, Elias JPC, Kreft H, Krömer T, Higuita MJC, Zuleta D, Machado G, de Gasper AL, Zotz G, Mendieta Leiva G, Jimenez-Lopez DA, Mendes AF, Brancalion P, Mortara S, Blum CT, Irume MV, Martínez-Meléndez Nayely N, Benavides AM, Boelter CR, and Batke S
- Subjects
- Phylogeny, Symbiosis, Host Specificity, Biological Evolution, Tracheophyta
- Abstract
Understanding the mechanisms driving community assembly has been a major focus of ecological research for nearly a century, yet little is known about these mechanisms in commensal communities, particularly with respect to their historical/evolutionary components. Here, we use a large-scale dataset of 4,440 vascular plant species to explore the relationship between the evolutionary distinctiveness (ED) (as measured by the 'species evolutionary history' (SEH)) of host species and the phylogenetic diversity (PD) of their associated epiphyte species. Although there was considerable variation across hosts and their associated epiphyte species, they were largely unrelated to host SEH. Our results mostly support the idea that the determinants of epiphyte colonization success might involve host characteristics that are unrelated to host SEH (e.g., architectural differences between hosts). While determinants of PD of epiphyte assemblages are poorly known, they do not appear to be related to the evolutionary history of host species. Instead, they might be better explained by neutral processes of colonization and extinction. However, the high level of phylogenetic signal in epiphyte PD (independent of SEH) suggests it might still be influenced by yet unrecognized evolutionary determinants. This study highlights how little is still known about the phylogenetic determinants of epiphyte communities., Competing Interests: Marcio Pie is an Academic Editor for PeerJ., (©2023 Pie et al.)
- Published
- 2023
- Full Text
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10. A potential global surveillance tool for effective, low-cost sampling of invasive Aedes mosquito eggs from tyres using adhesive tape.
- Author
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Dallimore T, Goodson D, Batke S, and Strode C
- Subjects
- Adhesives economics, Aedes classification, Aedes genetics, Animals, Introduced Species economics, Introduced Species statistics & numerical data, Mosquito Control economics, Mosquito Control instrumentation, Mosquito Vectors classification, Mosquito Vectors physiology, Ovum classification, Ovum physiology, Aedes physiology, Mosquito Control methods
- Abstract
Background: The international movement of used tyres is a major factor responsible for global introductions of Aedes invasive mosquitoes (AIMs) (Diptera: Culicidae) that are major disease vectors (e.g. dengue, Zika, chikungunya and yellow fever). Surveillance methods are restricted by expense, availability and efficiency to detect all life stages. Currently, no tested method exists to screen imported used tyres for eggs in diapause, the life stage most at risk from accidental introduction. Here we test the efficiency of adhesive tape as an affordable and readily available material to screen tyres for eggs, testing its effect on hatch rate, larval development, DNA amplification and structural damage on the egg surface., Results: We demonstrated that the properties of adhesive tape can influence pick up of dormant eggs attached to dry surfaces. Tapes with high levels of adhesion, such as duct tape, removed eggs with high levels of efficiency (97% ± 3.14). Egg numbers collected from cleaned used tyres were found to explain larval hatch rate success well, particularly in subsequent larval to adult emergence experiments. The strength of this relationship decreased when we tested dirty tyres. Damage to the exochorion was observed following scanning electron microscopy (SEM), possibly resulting in the high variance in the observed model. We found that five days was the optimal time for eggs to remain on all tested tapes for maximum return on hatch rate success. Tape type did not inhibit amplification of DNA of eggs from three, five or ten days of exposure. Using this DNA, genotyping of AIMs was possible using species-specific markers., Conclusions: We demonstrated for the first time that adhesive tapes are effective at removing AIM eggs from tyres. We propose that this method could be a standardised tool for surveillance to provide public health authorities and researchers with an additional method to screen tyre cargo. We provide a screening protocol for this purpose. This method has a global applicability and in turn can lead to increased predictability of introductions and improve screening methods at high risk entry points.
- Published
- 2020
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11. Convergence in Maximum Stomatal Conductance of C 3 Woody Angiosperms in Natural Ecosystems Across Bioclimatic Zones.
- Author
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Murray M, Soh WK, Yiotis C, Batke S, Parnell AC, Spicer RA, Lawson T, Caballero R, Wright IJ, Purcell C, and McElwain JC
- Abstract
Stomatal conductance ( g
s ) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxide for photosynthesis and water loss through transpiration, closely linking the biosphere and atmosphere and influencing climate. Yet, the range and pattern of gs in plants from natural ecosystems across broad geographic, climatic, and taxonomic ranges remains poorly quantified. Furthermore, attempts to characterize gs on such scales have predominantly relied upon meta-analyses compiling data from many different studies. This approach may be inherently problematic as it combines data collected using unstandardized protocols, sometimes over decadal time spans, and from different habitat groups. Using a standardized protocol, we measured leaf-level gs using porometry in 218 C3 woody angiosperm species in natural ecosystems representing seven bioclimatic zones. The resulting dataset of 4273 gs measurements, which we call STraits (Stomatal Traits), was used to determine patterns in maximum gs s gsmax s gsmax of C3 woody angiosperms across ecosystem types. We also tested for differential g ssmax in two broadly defined habitat groups - open-canopy and understory-subcanopy - within and across bioclimatic zones. We found strong convergence in mean gsmax of C3 woody angiosperms in the understory-subcanopy habitats across six bioclimatic zones, but not in open-canopy habitats. Mean gsmax in open-canopy habitats (266 ± 100 mmol m-2 s-1 ) was significantly higher than in understory-subcanopy habitats (233 ± 86 mmol m-2 s-1 ). There was also a central tendency in the overall dataset to operate toward a gsmax of ∼250 mmol m-2 s-1 . We suggest that the observed convergence in mean gsmax of C3 woody angiosperms in the understory-subcanopy is due to a buffering of gsmax against macroclimate effects which will lead to differential response of C3 woody angiosperm vegetation in these two habitats to future global change. Therefore, it will be important for future studies of gsmax to categorize vegetation according to habitat group.- Published
- 2019
- Full Text
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12. The Pressure Is On - Epiphyte Water-Relations Altered Under Elevated CO 2 .
- Author
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Batke S, Holohan A, Hayden R, Fricke W, Porter AS, and Evans-Fitz Gerald CM
- Abstract
Vascular epiphytes are a major biomass component of forests across the globe and they contribute to 9% of global vascular plant diversity. To improve our understanding of the whole-plant response of epiphytes to future climate change, we investigated for the first time both individual and combined effects of elevated CO
2 (560 ppm) and light on the physiology and growth of two epiphyte species [ Tillandsia brachycaulos (CAM) and Phlebodium aureum (C3)] grown for 272 days under controlled conditions. We found that under elevated CO2 the difference in water loss between the light (650 μmol m-2 s-1 ) and shade (130 μmol m-2 s-1 ) treatment was strongly reduced. Stomatal conductance ( gs ) decreased under elevated CO2 , resulting in an approximate 40-45% reduction in water loss over a 24 h day/night period under high light and high CO2 conditions. Under lower light conditions water loss was reduced by approximately 20% for the CAM bromeliad under elevated CO2 and increased by approximately 126% for the C3 fern. Diurnal changes in leaf turgor and water loss rates correlated strong positively under ambient CO2 (400 ppm) and high light conditions. Future predicted increases in atmospheric CO2 are likely to alter plant water-relations in epiphytes, thus reducing the canopy cooling potential of epiphytes to future increases in temperature.- Published
- 2018
- Full Text
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13. Benzylene-linked [PNP] scaffolds and their cyclometalated zirconium and hafnium complexes.
- Author
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Sietzen M, Batke S, Antoni PW, Wadepohl H, and Ballmann J
- Abstract
The benzylene-linked [PNP] scaffolds HN(CH
2 -o-C6 H4 PPh2 )2 ([A]H) and HN(C6 H4 -o-CH2 PPh2 )2 ([B]H) have been used for the synthesis of zirconium and hafnium complexes. For both ligands, the dimethylamides [A]M(NMe2 )3 ([A]1-M) and [B]M(NMe2 )3 ([B]1-M) were prepared and converted to the iodides [A]MI3 ([A]2-M) and [B]MI3 ([B]2-M) (M = Zr, Hf). Starting from these iodides, the corresponding benzyl derivatives [A]MBn3 ([A]3-M) and [B]MBn3 ([B]3-M) (M = Zr, Hf) were obtained via reaction with Bn2 Mg(OEt2 )2 . For zirconium, the benzylic ligand positions in [A]3-Zr and [B]3-Zr were found to cyclometalate readily, which led to the corresponding κ4 -[PCNP]ZrBn2 complexes [A]4-Zr and [B]4-Zr. As these complexes failed to hydrogenate cleanly, cyclometalated derivatives with only one alkyl substituent were targeted and the mixed benzyl chlorides κ4 -[PCNP]MBnCl ([B]5-M, M = Zr, Hf) were obtained in the case of ligand [B]. Upon hydrogenation of [B]5-Zr, the η6 -tolyl complex [B]Zr(η6 -C7 H8 )Cl ([B]6-Zr) was generated cleanly, but the corresponding hafnium complex [B]5-Hf was found to decompose unselectively in the presence of H2 . Using a closely related carbazole-based [PNP] ligand, Gade and co-workers have shown recently that zirconium η6 -arene complexes similar to [B]6-Zr may serve as zirconium(ii) synthons, namely when reacted with 2,6-Dipp-NC (L) or pyridine (py). Both these substrates were shown to react cleanly with [B]6-Zr, which led to the formation of the bis-isocyanide complex [B]ZrCl(L)2 ([B]7-Zr) and the 2,2'-bipyridine derivative [B]ZrCl(bipy) ([B]8-Zr), respectively. Upon reaction of [B]Zr(η6 -C7 H8 )Cl ([B]6-Zr) with NaBEt3 H, the cyclometalated derivative κ4 -[PCNP]Zr(η6 -C7 H8 ) ([B]9-Zr) was isolated. In an attempt to synthesise terminal hydrides, complexes [A]MI3 ([A]2-M) were treated with KBEt3 H, which led to the isolation of the cyclometalated hydrido complexes κ4 -[PCNP]M(H)(κ3 -Et3 BH) ([A]10-M; M = Zr, Hf) featuring a κ3 -bound triethyl borohydride moiety.- Published
- 2017
- Full Text
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14. Synthesis of NPN-Coordinated Tantalum Alkyl Complexes and Their Hydrogenolysis: Isolation of a Terminal Tantalum Hydride Incorporating a Doubly Cyclometalated NPN Scaffold.
- Author
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Batke S, Sietzen M, Wadepohl H, and Ballmann J
- Abstract
The closely related benzylene-linked diaminophosphines PhP(CH
2 C6 H4 -o-NHPh)2 (AH2 ) and PhP(C6 H4 -o-CH2 NHXyl)2 (BH2 with Xyl = 3,5-Me2 C6 H3 ) were employed for the synthesis of tantalum(V) alkyls, which were then studied with respect to hydrogenolysis. In the case of AH2 , the tantalum trimethyl complex [Ta(A)Me3 ] (1) and the tantalum hydrocarbyl complex [Ta(A)(CH2 SiMe3 )(η2 -EtC≡CEt)] (2) were prepared from the ligand's dilithium salt (A)Li2 (diox). Upon hydrogenolysis of 1 and 2, the formation of methane and SiMe4 , respectively, was observed, but well-defined tantalum hydrides could not be detected. In the case of BH2 , the cyclometalated species [Ta(B*)(NMe2 )2 ] (3 with B* = κ4 -N,P,N,C-(PhP(C6 H4 -o-CH2 NXyl)(C6 H4 -o-CHNXyl))3- ) was isolated and converted to the corresponding diiodo species [Ta(B*)I2 ] (4). Treatment of 4 with LiCH2 SiMe3 resulted in the isolation of the corresponding dialkyl complex [Ta(B*)(CH2 SiMe3 )2 ] (5), which was converted to the doubly cyclometalated monoalkyl complexes [Ta(B**)(CH2 SiMe3 )(PMe3 )] (6 with B** = κ5 -C,N,P,N,C-(PhP(C6 H4 -o-CHNXyl)2 )4- ) and [Ta(B**)(CH2 SiMe3 )(dmpe)] (7) via reaction with PMe3 and dmpe, respectively. In contrast to 5 and 6, 7 was found to react cleanly with dihydrogen to afford the corresponding terminal tantalum(V) hydride [Ta(B**)(H)(dmpe)] (8). Upon reaction of 7 with D2 , the deuteride [Ta(d2 -B**)(D)(dmpe)] (9) was obtained and found to contain deuterium atoms in the methine positions of both tantalaaziridine subunits. The partially deuterated derivatives [Ta(B**)(D)(dmpe)] (10) and [Ta(d2 -B**)(H)(dmpe)] (11) were generated via reaction of 8 and 9 with PhSiD3 and PhSiH3 , respectively. Prior to the addition of gaseous D2 or H2 , no H/D scrambling was observed in 10 or 11, indicating that the exchange of the methine positions proceeds via addition of D2 or H2 across the tantalaaziridine Ta-C bonds.- Published
- 2017
- Full Text
- View/download PDF
15. Concerted and differential actions of two enzymatic domains underlie Rad5 contributions to DNA damage tolerance.
- Author
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Choi K, Batke S, Szakal B, Lowther J, Hao F, Sarangi P, Branzei D, Ulrich HD, and Zhao X
- Subjects
- Adenosine Triphosphatases genetics, Adenosine Triphosphatases metabolism, Adenosine Triphosphate metabolism, Binding Sites genetics, DNA Helicases genetics, DNA Replication genetics, Electrophoresis, Gel, Two-Dimensional, Immunoblotting, Mutation, Proliferating Cell Nuclear Antigen genetics, Proliferating Cell Nuclear Antigen metabolism, Protein Binding, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins genetics, Sumoylation, Ubiquitin-Protein Ligases genetics, Ubiquitination, DNA Damage, DNA Helicases metabolism, Saccharomyces cerevisiae Proteins metabolism, Ubiquitin-Protein Ligases metabolism
- Abstract
Many genome maintenance factors have multiple enzymatic activities. In most cases, how their distinct activities functionally relate with each other is unclear. Here we examined the conserved budding yeast Rad5 protein that has both ubiquitin ligase and DNA helicase activities. The Rad5 ubiquitin ligase activity mediates PCNA poly-ubiquitination and subsequently recombination-based DNA lesion tolerance. Interestingly, the ligase domain is embedded in a larger helicase domain comprising seven consensus motifs. How features of the helicase domain influence ligase function is controversial. To clarify this issue, we use genetic, 2D gel and biochemical analyses and show that a Rad5 helicase motif important for ATP binding is also required for PCNA poly-ubiquitination and recombination-based lesion tolerance. We determine that this requirement is due to a previously unrecognized contribution of the motif to the PCNA and ubiquitination enzyme interaction, and not due to its canonical role in supporting helicase activity. We further show that Rad5's helicase-mediated contribution to replication stress survival is separable from recombination. These findings delineate how two Rad5 enzymatic domains concertedly influence PCNA modification, and unveil their discrete contributions to stress tolerance., (© The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.)
- Published
- 2015
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16. Programmable sensors of 5-hydroxymethylcytosine.
- Author
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Kubik G, Batke S, and Summerer D
- Subjects
- 5-Methylcytosine analogs & derivatives, Cytosine analysis, DNA genetics, Epigenesis, Genetic, Genetic Engineering, Models, Molecular, Molecular Structure, Tandem Repeat Sequences, Cytosine analogs & derivatives, DNA chemistry, Trans-Activators chemistry
- Abstract
5-Hydroxymethylcytosine (hmC), the sixth base of the mammalian genome, is increasingly recognized as an epigenetic mark with important biological functions. We report engineered, programmable transcription-activator-like effectors (TALEs) as the first DNA-binding receptor molecules that provide direct, individual selectivities for cytosine (C), 5-methylcytosine (mC), and hmC at user-defined DNA sequences. Given the wide applicability of TALEs for programmable targeting of DNA sequences in vitro and in vivo, this provides broad perspectives for epigenetic research.
- Published
- 2015
- Full Text
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17. A tripodal benzylene-linked trisamidophosphine ligand scaffold: synthesis and coordination chemistry with group(IV) metals.
- Author
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Batke S, Sietzen M, Wadepohl H, and Ballmann J
- Abstract
A new tripodal trisamidophosphine ligand (1) based on the trisbenzylphosphine backbone has been synthesized in three steps starting from NaPH2 and phthaloyl-protected 2-aminobenzyl bromide. At elevated temperatures, 1 reacts directly with M(NMe2)4 (M = Zr, Hf) to afford the dimethylamido complexes [PN3]M(NMe2) (M = Zr, Hf) (2), which are easily converted into the corresponding triflates [PN3]MOTf (M = Zr, Hf) (3) via reaction with triethylsilyl trifluoromethanesulfonate. The related titanium chloro complex [PN3]TiCl (4-Ti) is obtained from 1 and Bn3TiCl via protonolysis. Triple deprotonation of 1 with n-butyllithium affords the tris-lithium salt Li3[PN3] (1-Li), which serves as a common starting material for the preparation of all the group(IV) chlorides [PN3]MCl (M = Ti, Zr, Hf) (4). Upon treatment of 4-Ti with Bn2Mg(thf)2, formation of a benzyltitanium species is observed, which is converted cleanly into a ligand-CH-activated species (5-Ti).
- Published
- 2014
- Full Text
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