Your search keyword '"Hettich, Robert L"' showing total 25 results

1. Functional analysis of Salix purpurea genes support roles for ARR17 and GATA15 as master regulators of sex determination.

Author

Hyden, Brennan, Carper, Dana L., Abraham, Paul E., Yuan, Guoliang, Yao, Tao, Baumgart, Leo, Zhang, Yu, Chen, Cindy, O'Malley, Ronan, Chen, Jin‐Gui, Yang, Xiaohan, Hettich, Robert L., Tuskan, Gerald A., and Smart, Lawrence B.

Subjects

SEX determination, GENETIC sex determination, FUNCTIONAL analysis, WILLOWS, PROTEOMICS, SEXUAL dimorphism

Abstract

The Salicaceae family is of growing interest in the study of dioecy in plants because the sex determination region (SDR) has been shown to be highly dynamic, with differing locations and heterogametic systems between species. Without the ability to transform and regenerate Salix in tissue culture, previous studies investigating the mechanisms regulating sex in the genus Salix have been limited to genome resequencing and differential gene expression, which are mostly descriptive in nature, and functional validation of candidate sex determination genes has not yet been conducted. Here, we used Arabidopsis to functionally characterize a suite of previously identified candidate genes involved in sex determination and sex dimorphism in the bioenergy shrub willow Salix purpurea. Six candidate master regulator genes for sex determination were heterologously expressed in Arabidopsis, followed by floral proteome analysis. In addition, 11 transcription factors with predicted roles in mediating sex dimorphism downstream of the SDR were tested using DAP‐Seq in both male and female S. purpurea DNA. The results of this study provide further evidence to support models for the roles of ARR17 and GATA15 as master regulator genes of sex determination in S. purpurea, contributing to a regulatory system that is notably different from that of its sister genus Populus. Evidence was also obtained for the roles of two transcription factors, an AP2/ERF family gene and a homeodomain‐like transcription factor, in downstream regulation of sex dimorphism. [ABSTRACT FROM AUTHOR]

Published

2023

2. Identification and widespread environmental distribution of a gene cassette implicated in anaerobic dichloromethane degradation.

Author

Murdoch, Robert W., Chen, Gao, Kara Murdoch, Fadime, Mack, E. Erin, Villalobos Solis, Manuel I., Hettich, Robert L., and Löffler, Frank E.

Subjects

POISONS, DICHLOROMETHANE, COMPARATIVE genomics, PEAT bogs, OZONE-depleting substances, ANAEROBIC bacteria, GENE clusters

Abstract

Anthropogenic activities and natural processes release dichloromethane (DCM, methylene chloride), a toxic chemical with substantial ozone‐depleting capacity. Specialized anaerobic bacteria metabolize DCM; however, the genetic basis for this process has remained elusive. Comparative genomics of the three known anaerobic DCM‐degrading bacterial species revealed a homologous gene cluster, designated the methylene chloride catabolism (mec) gene cassette, comprising 8–10 genes encoding proteins with 79.6%–99.7% amino acid identities. Functional annotation identified genes encoding a corrinoid‐dependent methyltransferase system, and shotgun proteomics applied to two DCM‐catabolizing cultures revealed high expression of proteins encoded on the mec gene cluster during anaerobic growth with DCM. In a DCM‐contaminated groundwater plume, the abundance of mec genes strongly correlated with DCM concentrations (R2 = 0.71–0.85) indicating their potential value as process‐specific bioremediation biomarkers. mec gene clusters were identified in metagenomes representing peat bogs, the deep subsurface, and marine ecosystems including oxygen minimum zones (OMZs), suggesting a capacity for DCM degradation in diverse habitats. The broad distribution of anaerobic DCM catabolic potential infers a role for DCM as an energy source in various environmental systems, and implies that the global DCM flux (i.e., the rate of formation minus the rate of consumption) might be greater than emission measurements suggest. [ABSTRACT FROM AUTHOR]

Published

2022

3. Towards engineering ectomycorrhization into switchgrass bioenergy crops via a lectin receptor‐like kinase.

Author

Qiao, Zhenzhen, Yates, Timothy B., Shrestha, Him K., Engle, Nancy L., Flanagan, Amy, Morrell‐Falvey, Jennifer L., Sun, Yali, Tschaplinski, Timothy J., Abraham, Paul E., Labbé, Jessy, Wang, Zeng‐Yu, Hettich, Robert L., Tuskan, Gerald A., Muchero, Wellington, and Chen, Jin‐Gui

Subjects

SWITCHGRASS, PLANT colonization, BLACK cottonwood, COTTONWOOD, CROPS, MARGINAL productivity

Abstract

Summary: Soil‐borne microbes can establish compatible relationships with host plants, providing a large variety of nutritive and protective compounds in exchange for photosynthesized sugars. However, the molecular mechanisms mediating the establishment of these beneficial relationships remain unclear. Our previous genetic mapping and whole‐genome resequencing studies identified a gene deletion event of a Populus trichocarpa lectin receptor‐like kinase gene PtLecRLK1 in Populus deltoides that was associated with poor‐root colonization by the ectomycorrhizal fungus Laccaria bicolor. By introducing PtLecRLK1 into a perennial grass known to be a non‐host of L. bicolor, switchgrass (Panicum virgatum L.), we found that L. bicolor colonizes ZmUbipro‐PtLecRLK1 transgenic switchgrass roots, which illustrates that the introduction of PtLecRLK1 has the potential to convert a non‐host to a host of L. bicolor. Furthermore, transcriptomic and proteomic analyses on inoculated‐transgenic switchgrass roots revealed genes/proteins overrepresented in the compatible interaction and underrepresented in the pathogenic defence pathway, consistent with the view that pathogenic defence response is down‐regulated during compatible interaction. Metabolomic profiling revealed that root colonization in the transgenic switchgrass was associated with an increase in N‐containing metabolites and a decrease in organic acids, sugars, and aromatic hydroxycinnamate conjugates, which are often seen in the early steps of establishing compatible interactions. These studies illustrate that PtLecRLK1 is able to render a plant susceptible to colonization by the ectomycorrhizal fungus L. bicolor and shed light on engineering mycorrhizal symbiosis into a non‐host to enhance plant productivity and fitness on marginal lands. [ABSTRACT FROM AUTHOR]

Published

2021

4. Molecular Remodeling in Populus PdKOR RNAi Roots Profiled Using LC‐MS/MS Proteomics.

Author

Abraham, Paul E., Matthiadis, Anna, Hettich, Robert L., and Kalluri, Udaya C.

Published

2020

5. Scavenging organic nitrogen and remodelling lipid metabolism are key survival strategies adopted by the endophytic fungi, Serendipita vermifera and Serendipita bescii to alleviate nitrogen and phosphorous starvation in vitro.

Author

Ray, Prasun, Abraham, Paul E., Guo, Yingqing, Giannone, Richard J., Engle, Nancy L., Yang, Zamin K., Jacobson, Daniel, Hettich, Robert L., Tschaplinski, Timothy J., and Craven, Kelly D.

Subjects

LIPID metabolism, ENDOPHYTIC fungi, STARVATION, NITROGEN, MYCORRHIZAL fungi, AMINO acids

Abstract

Summary: Serendipitaceae represents a diverse fungal group in the Basidiomycota that includes endophytes and lineages that repeatedly evolved ericoid, orchid and ectomycorrhizal lifestyle. Plants rely upon both nitrogen and phosphorous, for essential growth processes, and are often provided by mycorrhizal fungi. In this study, we investigated the cellular proteome of Serendipita vermifera MAFF305830 and closely related Serendipita vermifera subsp. bescii NFPB0129 grown in vitro under (N) ammonium and (P) phosphate starvation conditions. Mycelial growth pattern was documented under these conditions to correlate growth‐specific responses to nutrient starvation. We found that N‐starvation accelerated hyphal radial growth, whereas P‐starvation accelerated hyphal branching. Additionally, P‐starvation triggers an integrated starvation response leading to remodelling of lipid metabolism. Higher abundance of an ammonium transporter known to serve as both an ammonium sensor and stimulator of hyphal growth was detected under N‐starvation. Additionally, N‐starvation led to strong up‐regulation of nitrate, amino acid, peptide, and urea transporters, along with several proteins predicted to have peptidase activity. Taken together, our finding suggests S. bescii and S. vermifera have the metabolic capacity for nitrogen assimilation from organic forms of N compounds. We hypothesize that the nitrogen metabolite repression is a key regulator of such organic N assimilation. [ABSTRACT FROM AUTHOR]

Published

2019

6. Geochemical, metagenomic and metaproteomic insights into trace metal utilization by methane-oxidizing microbial consortia in sulphidic marine sediments

Author

Glass, Jennifer B., Yu, Hang, Steele, Joshua A., Dawson, Katherine S., Sun, Shulei, Chourey, Karuna, Pan, Chongle, Hettich, Robert L., and Orphan, Victoria J.

Subjects

inorganic chemicals

Abstract

Microbes have obligate requirements for trace metals in metalloenzymes that catalyse important biogeochemical reactions. In anoxic methane- and sulphide-rich environments, microbes may have unique adaptations for metal acquisition and utilization because of decreased bioavailability as a result of metal sulphide precipitation. However, micronutrient cycling is largely unexplored in cold (≤ 10°C) and sulphidic (> 1 mM ΣH_(2)S) deep-sea methane seep ecosystems. We investigated trace metal geochemistry and microbial metal utilization in methane seeps offshore Oregon and California, USA, and report dissolved concentrations of nickel (0.5–270 nM), cobalt (0.5–6 nM), molybdenum (10–5600 nM) and tungsten (0.3–8 nM) in Hydrate Ridge sediment porewaters. Despite low levels of cobalt and tungsten, metagenomic and metaproteomic data suggest that microbial consortia catalysing anaerobic oxidation of methane (AOM) utilize both scarce micronutrients in addition to nickel and molybdenum. Genetic machinery for cobalt-containing vitamin B_(12) biosynthesis was present in both anaerobic methanotrophic archaea (ANME) and sulphate-reducing bacteria. Proteins affiliated with the tungsten-containing form of formylmethanofuran dehydrogenase were expressed in ANME from two seep ecosystems, the first evidence for expression of a tungstoenzyme in psychrophilic microorganisms. Overall, our data suggest that AOM consortia use specialized biochemical strategies to overcome the challenges of metal availability in sulphidic environments.

Published

2014

7. Quantitative Proteomic Analysis of Biological Processes and Responses of the Bacterium Desulfovibrio desulfuricans ND132 upon Deletion of Its Mercury Methylation Genes.

Author

Qian, Chen, Chen, Hongmei, Johs, Alexander, Lu, Xia, An, Jing, Pierce, Eric M., Parks, Jerry M., Elias, Dwayne A., Hettich, Robert L., and Gu, Baohua

Published

2018

8. Identification of peptide‐binding sites within BSA using rapid, laser‐induced covalent cross‐linking combined with high‐performance mass spectrometry.

Author

Hauser, Melinda, Qian, Chen, King, Steven T., Kauffman, Sarah, Naider, Fred, Hettich, Robert L., and Becker, Jeffrey M.

Abstract

Abstract: We are developing a rapid, time‐resolved method using laser‐activated cross‐linking to capture protein‐peptide interactions as a means to interrogate the interaction of serum proteins as delivery systems for peptides and other molecules. A model system was established to investigate the interactions between bovine serum albumin (BSA) and 2 peptides, the tridecapeptide budding‐yeast mating pheromone (α‐factor) and the decapeptide human gonadotropin‐releasing hormone (GnRH). Cross‐linking of α‐factor, using a biotinylated, photoactivatable p‐benzoyl‐L‐phenylalanine (Bpa)–modified analog, was energy‐dependent and achieved within seconds of laser irradiation. Protein blotting with an avidin probe was used to detect biotinylated species in the BSA‐peptide complex. The cross‐linked complex was trypsinized and then interrogated with nano‐LC–MS/MS to identify the peptide cross‐links. Cross‐linking was greatly facilitated by Bpa in the peptide, but some cross‐linking occurred at higher laser powers and high concentrations of a non‐Bpa–modified α‐factor. This was supported by experiments using GnRH, a peptide with sequence homology to α‐factor, which was likewise found to be cross‐linked to BSA by laser irradiation. Analysis of peptides in the mass spectra showed that the binding site for both α‐factor and GnRH was in the BSA pocket defined previously as the site for fatty acid binding. This model system validates the use of laser‐activation to facilitate cross‐linking of Bpa‐containing molecules to proteins. The rapid cross‐linking procedure and high performance of MS/MS to identify cross‐links provides a method to interrogate protein‐peptide interactions in a living cell in a time‐resolved manner. [ABSTRACT FROM AUTHOR]

Published

2018

9. Mechanisms of subzero growth in the cryophile Planococcus halocryophilus determined through proteomic analysis.

Author

Raymond ‐ Bouchard, Isabelle, Chourey, Karuna, Altshuler, Ianina, Iyer, Ramsunder, Hettich, Robert L., and Whyte, Lyle G.

Subjects

PLANOCOCCUS, COLD adaptation, BACTERIAL growth, BACTERIAL metabolism, PROTEOMICS

Abstract

The eurypsychrophilic bacterium Planococcus halocryophilus is capable of growth down to −15°C, making it ideal for studying adaptations to subzero growth. To increase our understanding of the mechanisms and pathways important for subzero growth, we performed proteomics on P. halocryophilus grown at 23°C, 23°C with 12% w/v NaCl and −10°C with 12% w/v NaCl. Many proteins with increased abundances at −10°C versus 23°C also increased at 23C-salt versus 23°C, indicating a closely tied relationship between salt and cold stress adaptation. Processes which displayed the largest changes in protein abundance were peptidoglycan and fatty acid (FA) synthesis, translation processes, methylglyoxal metabolism, DNA repair and recombination, and protein and nucleotide turnover. We identified intriguing targets for further research at −10°C, including PlsX and KASII (FA metabolism), DD-transpeptidase and MurB (peptidoglycan synthesis), glyoxalase family proteins (reactive electrophile response) and ribosome modifying enzymes (translation turnover). PemK/MazF may have a crucial role in translational reprogramming under cold conditions. At −10°C P. halocryophilus induces stress responses, uses resources efficiently, and carefully controls its growth and metabolism to maximize subzero survival. The present study identifies several mechanisms involved in subzero growth and enhances our understanding of cold adaptation. [ABSTRACT FROM AUTHOR]

Published

2017

10. Enhancing metaproteomics-The value of models and defined environmental microbial systems.

Author

Herbst, Florian-Alexander, Lünsmann, Vanessa, Kjeldal, Henrik, Jehmlich, Nico, Tholey, Andreas, Bergen, Martin, Nielsen, Jeppe Lund, Hettich, Robert L., Seifert, Jana, and Nielsen, Per Halkjær

Published

2016

11. Critical biogeochemical functions in the subsurface are associated with bacteria from new phyla and little studied lineages.

Author

Hug, Laura A., Thomas, Brian C., Sharon, Itai, Brown, Christopher T., Sharma, Ritin, Hettich, Robert L., Wilkins, Michael J., Williams, Kenneth H., Singh, Andrea, and Banfield, Jillian F.

Subjects

BIOGEOCHEMISTRY, BACTERIAL communities, METAGENOMICS, NITRATE reductase, GROUNDWATER

Abstract

Nitrogen, sulfur and carbon fluxes in the terrestrial subsurface are determined by the intersecting activities of microbial community members, yet the organisms responsible are largely unknown. Metagenomic methods can identify organisms and functions, but genome recovery is often precluded by data complexity. To address this limitation, we developed subsampling assembly methods to re-construct high-quality draft genomes from complex samples. We applied these methods to evaluate the interlinked roles of the most abundant organisms in biogeochemical cycling in the aquifer sediment. Community proteomics confirmed these activities. The eight most abundant organisms belong to novel lineages, and two represent phyla with no previously sequenced genome. Four organisms are predicted to fix carbon via the Calvin- Benson- Bassham, Wood- Ljungdahl or 3-hydroxyproprionate/4-hydroxybutarate pathways. The profiled organisms are involved in the network of denitrification, dissimilatory nitrate reduction to ammonia, ammonia oxidation and sulfate reduction/oxidation, and require substrates supplied by other community members. An ammonium-oxidizing Thaumarchaeote is the most abundant community member, despite low ammonium concentrations in the groundwater. This organism likely benefits from two other relatively abundant organisms capable of producing ammonium from nitrate, which is abundant in the groundwater. Overall, dominant members of the microbial community are interconnected through exchange of geochemical resources. [ABSTRACT FROM AUTHOR]

Published

2016

12. Metaproteomics reveals functional shifts in microbial and human proteins during a preterm infant gut colonization case.

Author

Young, Jacque C., Pan, Chongle, Adams, Rachel M., Brooks, Brandon, Banfield, Jillian F., Morowitz, Michael J., and Hettich, Robert L.

Published

2015

13. Microbial metaproteomics for characterizing the range of metabolic functions and activities of human gut microbiota.

Author

Xiong, Weili, Abraham, Paul E., Li, Zhou, Pan, Chongle, and Hettich, Robert L.

Published

2015

14. 15 N- and 2 H proteomic stable isotope probing links nitrogen flow to archaeal heterotrophic activity.

Author

Justice, Nicholas B., Li, Zhou, Wang, Yingfeng, Spaudling, Susan E., Mosier, Annika C., Hettich, Robert L., Pan, Chongle, and Banfield, Jillian F.

Subjects

STABLE isotopes, PROTEOMICS, HETEROTROPHIC bacteria, ACID mine drainage, BIOFILMS, DEUTERIUM oxide, PROTEIN synthesis, ANAEROBIC bacteria

Abstract

Understanding how individual species contribute to nutrient transformations in a microbial community is critical to prediction of overall ecosystem function. We conducted microcosm experiments in which floating acid mine drainage ( AMD) microbial biofilms were submerged - recapitulating the final stage in a natural biofilm life cycle. Biofilms were amended with either 15NH4+ or deuterium oxide ( 2H2O) and proteomic stable isotope probing ( SIP) was used to track the extent to which different members of the community used these molecules in protein synthesis across anaerobic iron-reducing, aerobic iron-reducing and aerobic iron-oxidizing environments. S ulfobacillus spp. synthesized 15N-enriched protein almost exclusively under iron-reducing conditions whereas the L eptospirillum spp. synthesized 15N-enriched protein in all conditions. There were relatively few 15N-enriched archaeal proteins, and all showed low atom% enrichment, consistent with A rchaea synthesizing protein using the predominantly 14N biomass derived from recycled biomolecules. In parallel experiments using 2H2O, extensive archaeal protein synthesis was detected in all conditions. In contrast, the bacterial species showed little protein synthesis using 2H2O. The nearly exclusive ability of A rchaea to synthesize proteins using 2H2O may be due to archaeal heterotrophy, whereby A rchaea offset deleterious effects of 2H by accessing 1H generated by respiration of organic compounds. [ABSTRACT FROM AUTHOR]

Published

2014

15. Environmental proteomics reveals early microbial community responses to biostimulation at a uranium- and nitrate-contaminated site.

Author

Chourey, Karuna, Nissen, Silke, Vishnivetskaya, Tatiana, Shah, Manesh, Pfiffner, Susan, Hettich, Robert L., and Löffler, Frank E.

Published

2013

16. Proteome changes in the initial bacterial colonist during ecological succession in an acid mine drainage biofilm community.

Author

Mueller, Ryan S., Dill, Brian D., Pan, Chongle, Belnap, Christopher P., Thomas, Brian C., VerBerkmoes, Nathan C., Hettich, Robert L., and Banfield, Jillian F.

Subjects

ACID mine drainage, BIOFILMS, MICROBIAL growth, PROTEIN synthesis, BACTERIAL metabolism, MICROORGANISM populations, PROTEOMICS

Abstract

Summary Proteomes of acid mine drainage biofilms at different stages of ecological succession were examined to understand microbial responses to changing community membership. We evaluated the degree of reproducibility of the community proteomes between samples of the same growth stage and found stable and predictable protein abundance patterns across time and sampling space, allowing for a set of 50 classifier proteins to be identified for use in predicting growth stages of undefined communities. Additionally, physiological changes in the dominant species, Leptospirillum Group II, were analysed as biofilms mature. During early growth stages, this population responds to abiotic stresses related to growth on the acid mine drainage solution. Enzymes involved in protein synthesis, cell division and utilization of 1- and 2-carbon compounds were more abundant in early growth stages, suggesting rapid growth and a reorganization of metabolism during biofilm initiation. As biofilms thicken and diversify, external stresses arise from competition for dwindling resources, which may inhibit cell division of Leptospirillum Group II through the SOS response. This population also represses translation and synthesizes more complex carbohydrates and amino acids in mature biofilms. These findings provide unprecedented insight into the physiological changes that may result from competitive interactions within communities in natural environments. [ABSTRACT FROM AUTHOR]

Published

2011

17. Ecological distribution and population physiology defined by proteomics in a natural microbial community.

Author

Mueller, Ryan S, Denef, Vincent J, Kalnejais, Linda H, Suttle, K Blake, Thomas, Brian C, Wilmes, Paul, Smith, Richard L, Nordstrom, D Kirk, McCleskey, R Blaine, Shah, Manesh B, VerBerkmoes, Nathan C, Hettich, Robert L, and Banfield, Jillian F

Abstract

An important challenge in microbial ecology is developing methods that simultaneously examine the physiology of organisms at the molecular level and their ecosystem level interactions in complex natural systems. We integrated extensive proteomic, geochemical, and biological information from 28 microbial communities collected from an acid mine drainage environment and representing a range of biofilm development stages and geochemical conditions to evaluate how the physiologies of the dominant and less abundant organisms change along environmental gradients. The initial colonist dominates across all environments, but its proteome changes between two stable states as communities diversify, implying that interspecies interactions affect this organism’s metabolism. Its overall physiology is robust to abiotic environmental factors, but strong correlations exist between these factors and certain subsets of proteins, possibly accounting for itswide environmental distribution. Lower abundance populations are patchier in their distribution, and proteomic data indicate that their environmental niches may be constrained by specific sets of abiotic environmental factors. This research establishes an effective strategy to investigate ecological relationships between microbial physiology and the environment for whole communities in situ. [ABSTRACT FROM AUTHOR]

Published

2010

18. Proteomics-inferred genome typing (PIGT) demonstrates inter-population recombination as a strategy for environmental adaptation.

Author

Denef, Vincent J., VerBerkmoes, Nathan C., Shah, Manesh B., Abraham, Paul, Lefsrud, Mark, Hettich, Robert L., and Banfield, Jillian F.

Subjects

MICROORGANISM populations, BIOTIC communities, GENOMES, BACTERIA, PROTEOMICS, MARINE ecology, MICROBIOLOGY

Abstract

Analyses of ecological and evolutionary processes that shape microbial consortia are facilitated by comprehensive studies of ecosystems with low species richness. In the current study we evaluated the role of recombination in altering the fitness of chemoautotrophic bacteria in their natural environment. Proteomics-inferred genome typing (PIGT) was used to genotype the dominant Leptospirillum group II populations in 27 biofilms sampled from six locations in the Richmond Mine acid mine drainage system (Iron Mountain, CA) over a 4-year period. We observed six distinct genotypes that are recombinants comprised of segments from two ‘parental’ genotypes. Community genomic analyses revealed additional low abundance recombinant variants. The dominance of some genotypes despite a larger available genome pool, and patterns of spatiotemporal distribution within the ecosystem, indicate selection for distinct recombinants. Genes involved in motility, signal transduction and transport were over-represented in the tens to hundreds of kilobase recombinant blocks, whereas core metabolic functions were significantly under-represented. Our findings demonstrate the power of PIGT and reveal that recombination is a mechanism for fine-scale adaptation in this system. [ABSTRACT FROM AUTHOR]

Published

2009

19. Comparison of sustained off-resonance irradiation collisionally activated dissociation and multipole storage-assisted dissociation for top-down protein analysis.

Author

Keller, Karin M., Brodbelt, Jennifer S., Hettich, Robert L., and Berkel, Gary J. Van

Published

2004

20. N-Phenyl-1,4-Phenylenediamine and Benzidine Oxidation Products Identified Using On-Line Electrochemistry/Electrospray Fourier Transform Mass Spectrometry.

Author

Kertesz, Vilmos, Deng, Haiteng, Asano, Keiji G., Hettich, Robert L., and Van Berkel, Gary J.

Published

2002

21. Optical Sensing of Cesium Using 1,3-Alternate Calix[4]-mono- and Di(anthrylmethyl)aza-crown-6.

Author

Ji, Hai-Feng, Hettich, Robert L., Brown, Gilbert M., and Dabestani, Reza

Published

1999

22. Spacer Length Effect on the Photoinduced Electron Transfer Fluorescent Probe for Alkali Metal Ions.

Author

Ji, Hai-Feng, Dabestani, Reza, Brownxy, Gilbert M., and Hettich, Robert L.

Published

1999

23. Structural characterization of naturally occurring pteridines by laser desorption Fourier transform mass spectrometry.

Author

Hettich, Robert L. and Jacobson, K. Bruce

Published

1995

24. Investigation of Oligonucleotide Fragmentation with Matrix-assisted Laser Desorption/Ionization Fourier-transform Mass Spectrometry and Sustained Off-resonance Irradiation.

Author

Hettich, Robert L. and Stemmler, Elizabeth A.

Published

1996

25. An electrostatic ion guide interface for combining electrospray with Fourier transform ion cyclotron resonance mass spectrometry.

Author

Tang, Liang, Hettich, Robert L., Hurst, Gregory B., and Buchanan, Michelle V.

Published

1995