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Genetic analysis of bovine papillomas

2024-09-19T00:00:00+00:00

Bovine papillomavirus (BPV) is a major cause of reproductive failure in cattle. In bulls, penile papillomas caused by BPV may cause reluctance to breed, and is always a cause to fail an animal on a breeding soundness exam. Historically, it has been thought that BPV was transmitted via direct contact and could be controlled by managing clinically presenting animals in the herd, but more recent evidence suggests alternative modes of transmission. BPV has been found repeatably in clinically healthy animals, and in non-cutaneous secretions including milk, blood, urine and semen. Currently, no commercially available BPV vaccine uses isolated viral particles and naturally occurring virus does not produce cross-protective immunity. In order to develop a proper vaccine for penile papillomas further studies are required to understand the epidemiology of BPV in herds. While vulvar, cutaneous, and mammary papillomas have been genotyped in recent years, this information is not available for penile papillomas. In this study there were 31 submissions, collected from 7 states, NE, KS, NY, TX, AL, MO and SD (14 different cattle operations) Samples were collected between August of 2022 and April 2024. Twenty-two submissions were penile papillomas and with pooling of samples represented over 50 penile papillomas. Samples were metagenomically sequenced at the Kansas State Veterinary Diagnostic Lab, and the genotype of each sample was determined using the phylogenetic analysis. The clade of each sample was determined by aligning consensus sequences of the L1 gene (used for both for phylogeny and as a vaccine target) using MAFFT and a maximum-likelihood phylogeny generated in Mega X. Analysis found that all penile papilloma submissions were composed of BPV type 2, with one sample showing co-infection with BPV type 1. Conversely, cutaneous and teat papillomas had BPV genotypes that were more variable with genotypes of 1,2,7,12,14,29 and 40. These results indicate that BPV type 2 and type 1 provide a unified target for bovine penile papilloma vaccine development.

Got Warts? Bovine Papillomavirus Pathogenesis, Transmission, and Vaccination

2024-09-19T00:00:00+00:00

YAVSAP: versatile viral quasispecies analysis for veterinary samples

2024-03-05T00:00:00+00:00

Viral populations within an infected host are composed of viral particles with a spectrum of genetic mutations rather than a unified genome. This phenomenon is referred to as viral “quasispecies,” and has been useful for the understanding of viral transmission and early detection of new viral variants. Next generation sequencing (NGS) has enabled the study of these quasispecies for many viral species, notably Influenza A and B, Human Immunodeficiency Virus (HIV), Foot and Mouth Disease Virus (FMDV), and Severe Acute Respiratory Syndrome Coronavirus 2 (SARS CoV2), and established protocols and computer analysis tools have been developed for these species. Some of the most important viruses, such as emerging and exotic disease agents, however, do not have replicatable protocols or software tools capable of producing valid output from their sequence data. Here, we present Yet Another Viral Subspecies Analysis Pipeline (YAVSAP). YAVSAP is a fully automated bioinformatic pipeline built from the ground up to identify and analyze viral quasispecies of any arbitrary virus in human and veterinary samples. YAVSAP provides reference-based genome mapping of both long- and short-read sequencing reads to any reference genome that the user chooses, identifies subconsensus variants and haplotypes, and assesses the phylogenies of all viral sequences found within a sample. YAVSAP is written in Nextflow and conforms to the nf-core initiative’s standards, which allows it to run on low-end computers, high performance computing (HPC) clusters, or anything in between with zero configuration. YAVSAP has been tested on viruses of interest to veterinary medicine and public health, including Japanese Encephalitis Virus (JEV), Influenza D Virus (IDV), Bovine Coronavirus (BCoV), SARS CoV2, and Rift Valley Fever Virus (RVFV), and can correctly identify consensus genomes and quasispecies within samples containing each of these viruses. This tool provides a means for biologists with little bioinformatic experience to analyze deep sequence data while correcting for many of the pitfalls associated with previous and current analysis platforms. YAVSAP is open source software and is publicly available at https://github.com/ksumngs/yavsap.

RLRI Hype Video

2023-11-07T00:48:13+00:00

Are you ready for Real Life Real Impact 2024? Because we here at Kansas State University are! Here’s a sneak preview of what to expect in January.

More info and signup at https://cvm.org/real-life-real-impact-detail/real-life-real-impact-central

nf-core/taxprofiler: highly parallelised and flexible pipeline for metagenomic taxonomic classification and profiling

2023-10-23T00:00:00+00:00

Metagenomic classification tackles the problem of characterising the taxonomic source of all DNA sequencing reads in a sample. A common approach to address the differences and biases between the many different taxonomic classification tools is to run metagenomic data through multiple classification tools and databases. This, however, is a very time-consuming task when performed manually - particularly when combined with the appropriate preprocessing of sequencing reads before the classification. Here we present nf-core/taxprofiler, a highly parallelised read-processing and taxonomic classification pipeline. It is designed for the automated and simultaneous classification and/or profiling of both short- and long-read metagenomic sequencing libraries against a 11 taxonomic classifiers and profilers as well as databases within a single pipeline run. Implemented in Nextflow and as part of the nf-core initiative, the pipeline benefits from high levels of scalability and portability, accommodating from small to extremely large projects on a wide range of computing infrastructure. It has been developed following best-practise software development practises and community support to ensure longevity and adaptability of the pipeline, to help keep it up to date with the field of metagenomics.

Investigation of Hydronium Diffusion in Poly(vinyl alcohol) Hydrogels: A Critical First Step to Describe Acid Transport for Encapsulated Bioremediation

2022-09-02T00:00:00+00:00

Bioremediation of chlorinated aliphatic hydrocarbon-contaminated aquifers can be hindered by high contaminant concentrations and acids generated during remediation. Encapsulating microbes in hydrogels may provide a protective, tunable environment from inhibiting compounds; however, current approaches to formulate successful encapsulated systems rely on trial and error rather than engineering approaches because fundamental information on mass-transfer coefficients is lacking. To address this knowledge gap, hydronium ion mass-transfer rates through two commonly used hydrogel materials, poly(vinyl alcohol) and alginic acid, under two solidification methods (chemical and cryogenic) were measured. Variations in hydrogel crosslinking conditions, polymer composition, and solvent ionic strength were investigated to understand how each influenced hydronium ion diffusivity. A three-way ANOVA indicated that the ionic strength, membrane type, and crosslinking method significantly (p < 0.001) contributed to changes in hydronium ion mass transfer. Hydronium ion diffusion increased with ionic strength, counter to what is observed in aqueous-only (no polymer) solutions. Co-occurring mechanisms correlated to increased hydronium ion diffusion with ionic strength included an increased water fraction within hydrogel matrices and hydrogel contraction. Measured diffusion rates determined in this study provide first principal design information to further optimize encapsulating hydrogels for bioremediation.

Cowsay.jl

2022-05-11T01:32:54+00:00

:cow2: cowsay for Julia!

docker-names

2022-05-09T09:13:08-05:00

A docker name generator in TypeScript.

Assessment of Porcine Rotavirus-associated virome variations in pigs with enteric disease

2022-04-27T00:00:00+00:00

Enteric disease is the predominant cause of morbidity and mortality in young mammals including pigs. Viral species involved in porcine enteric disease complex (PEDC) include rotaviruses, coronaviruses, picornaviruses, astroviruses and pestiviruses among others. The virome of three groups of swine samples submitted to the Kansas State University Veterinary Diagnostic Laboratory for routine testing were assessed, namely, a Rotavirus A positive (RVA) group, a Rotavirus co-infection (RV) group and a Rotavirus Negative (RV Neg) group. All groups were designated by qRT-PCR results testing for Porcine Rotavirus A, B, C and H such that samples positive for RVA only went in the RVA group, samples positive for >1 rotavirus went in the RV group and samples negative for all were grouped in the RVNeg group. All of the animals had clinical enteric disease resulting in scours and swollen joints/lameness, enlarged heart and/or a cough. All samples were metagenomic sequenced and analyzed for viral species composition that identified 14 viral species and eight bacterial viruses/phages. Sapovirus and Escherichia coli phages were found at a high prevalence in RVA and RV samples but were found at low or no prevalence in the RV Neg samples. Picobirnavirus was identified at a high proportion and prevalence in RV Neg and RV samples but at a low prevalence in the RVA group. A sequence analysis of the possible host of Picobirnaviruses revealed fungi as the most likely host. Non-rotaviral diversity was highest in RVA samples followed by RV then RV Neg samples. Various sequences were extracted from the sample reads and a phylogenetic update was provided showing a high prevalence of G9 and P[23] RVA genotypes. These data are important for pathogen surveillance and control measures

Kelpie.jl

2022-04-06T19:32:52+00:00

:dog2: I accidentally built an HTML templating engine in Julia

nfdocs-parser

2022-01-25T10:15:13-06:00

A Sphinx plugin for converting Nextflow docstrings into documentation

singularity-builds

2021-11-15T12:37:15-06:00

cowsay-cows

2021-10-12T15:13:28-05:00

cowfiles in the original spirit of cowsay, except that all of these are actually bovine

beefblup

2021-08-09T19:10:22-05:00

Scripts and spreadsheets for performing single-variate Best Linear Unbiased Predictor (BLUP) to find beef cattle breeding values #KeepEPDsReal

Polyoxometalate Incorporation and Effects on Proton Transport in Hydrogel Polymers

2020-08-07T00:00:00+00:00

Polyoxometalate clusters embedded into hydrogel biobeads may be able to solve the challenges posed by free proton generation during remediation of trichloroethylene by acting as buffers and reducing protons to hydrogen gas. In this thesis, the challenges posed by systems that contain both diffusion and reaction processes for protons are considered mathematically, and a computer simulation to was developed to prove the relationship between diaphragm cell lag period and reactive capabilities of membranes. Two polyoxometalate compounds, sodium decavanadate and alumina sulfate, were successfully incorporated into a poly(vinyl alcohol) hydrogel membrane, and the diffusivity changes associated with each compound was determined. It was found that the diffusivity of protons through an unmodified 10% w/v poly(vinyl alcohol) membrane was 1.76 × 10^-5 cm² s^-1 , the diffusivity through a 10%/2% w/w/v poly(vinyl alcohol)/sodium decavanadate membrane was 3.10 × 10^-6 cm² s^-1 , and the diffusivity through a 10%/2% w/w/v poly(vinyl alcohol)/alumina sulfate membrane was 3.32 × 10^-7 cm² s^-1 . Through analysis of the diaphragm cell lag period, it was found the incorporation of sodium decavanadate did not increase the reactivity of a poly(vinyl alcohol) hydrogel, and incorporation of alumina sulfate lowered the reactivity. These results indicate that polyoxometalate integration into hydrogel membranes is feasible, but does not provide any advantage to a bioremediation scenario.

Metagenomic analysis of rumen populations in week-old calves as altered by maternal late gestational nutrition and mode of delivery

2019-06-12T00:00:00+00:00

Early colonization of the rumen microbiome is critical to host health and long term performance. Factors that influence early colonization include maternal factors such as gestational nutrition and mode of delivery. Therefore, we hypothesized that late gestational nutrition and mode of delivery would influence the calf rumen microbiome. Our objectives were to determine if nutrient restriction during late gestation alters the calf rumen microbiome and determine if ruminal microbiome composition differs in calves born vaginally versus caesarean. Late gestating Angus cows were randomly allocated to one of three treatment groups: control (CON; n = 6), caesarean section (CS; n = 4), and nutrient restricted (NR; n = 5), where CON were fed DDGS and hay to meet NRC requirements and calved naturally; CS were fed similarly to CON and calves were born via caesarean section; and NR were fed at a level to reduce BCS by 1.5-2.0 points over the last trimester compared to CON and calved naturally. Rumen fluid was collected via oral lavage prior to partition from cows and at d 7 from calves. Microbial DNA was isolated from the rumen fluid and metagenomic shotgun sequencing was performed using the Illumina HiSeq 2500 platform. Sequence data were analyzed using Metaxa2 for taxonomic assignment followed by QIIME1 and QIIME2 to determine differential abundance and alpha- and beta-diversity differences. There were no significant differences in alpha-diversity as measured by shannon index across treatment groups for cows (P = 0.239), but there were significant differences for calves (P = 0.015). Similarly, there were no significant differences in beta-diversity as measured by the bray-curtis dissimilarity matrix for cows (P = 0.059), but there were significant differences for calves (P = 0.007). Alpha-diversity differed (P < 0.001) between cows and calves, with cows having increased species richness compared to calves. Beta-diversity also differed (P = 0.001) between cows and calves. At total of 410 taxa were differentially abundant (P < 0.01) between cows and calves. These results suggest that the mature rumen microbiome of cows is able to withstand changes in feed intake, however the calf microbiome is susceptible to alteration by maternal factors. These data also suggest that there may be opportunities to develop management strategies during late gestation that influence calf health and performance long-term.

The ChemE Car that Cud: AIChE ChemE Car Engineering Design Proposal

2019-05-14T00:00:00+00:00

The ChemE Car That Cud showcases Wyoming’s dominant industries of agriculture and mining by utilizing rumen fluid from a cannulated beef cow to generate hydrogen to be used in a hydrogen fuel cell and radioactive cesium, a byproduct of uranium that is often obtained from Wyoming’s mines, to time the car’s stop. The concentration of cesium-137 source is measured using the radioactive decay of cesium shielded by aluminum. The painted aluminum chassis was obtained from a previous team at UW, and modified using plastic k’nex toys to adapt to the current power source and stopping mechanism.

Measuring Diffusion of Trichlorethylene Breakdown Products in Polyvinylalginate

2018-10-29T00:00:00+00:00

Trichloroethylene (TCE), a toxic and carcinogenic contaminant, presents unique challenges for cleanup because of its water solubility, density, and volatility. Bioremediation of TCE is a promising cleanup method; however, metabolism of TCE results in acid generation that inhibits remediating microorganisms. Calcium alginate(CA)-polyvinylalcohol (PVA) hydrogels show promise for protecting remediating microbes, however diffusion of TCE or its byproducts through these polymers is unknown. To measure the effective diffusion coefficient of TCE and byproducts through hydrogel membranes, we used a modified diaphragm cell. Measured effective diffusion coefficient of each species was (cm ² /s × 10⁶ ): 14.0 ± 1.91 for H⁺ ions, 12.4 ± 1.64 for TCE, 7.83 ± 0.54 for cis-1,2-dichloroethylene (DCE), and 4.68 ± 4.14 for vinyl chloride. These results aid in engineering biobeads and suggest that CA-PVA hydrogel blends are effective in slowing diffusion of protons, buffering acids produced by trichloroethylene metabolism, and remains suitable for encapsulation of microorganisms involved in bioremediation.

How to Build a Cow-Cud Fuel Cell

2018-08-01T00:00:00+00:00

Measuring diffusion of protons in polyvinyalginate

2018-07-31T00:00:00+00:00

Trichloroethylene (TCE) is a toxic and carcinogenic contaminant that presents unique challenges for cleanup because of its density and volatility. Use of microorganisms may be a promising remediation method, however metabolism of TCE results in acid buildup, which consequently impedes the ability of microorganisms to perform this remediation. Polyvinylalginate (PVA) shows promise as a useful shield for microorganisms carrying out bioremediation of TCE by surrounding them in a protective biofilm-like layer, however, key information is missing which relates diffusion of TCE or its metabolic products through PVA. To measure the effective diffusion coefficient of H⁺ ions through a PVA membrane cross-linked with boric acid and calcium ions, we used a modified diaphragm cell. We found the effective diffusion coefficient to be 1.40 × 10^-5 ± 1.91 × 10^-6 cm² s, a nearly seven-fold decrease in diffusivity compared to protons in water, with an unexpected significant but as of yet unquantified adsorption capacity. These results suggest that polyvinylalginate is effective in slowing diffusion of protons and buffering these acids produced by trichloroethylene metabolism, and remains suitable for encapsulation of microorganisms involved in bioremediation.

Farm Bureau Ag Olympics Reel

2017-02-16T00:00:00+00:00

The Albany County Farm Bureau Young Farmer’s and Rancher’s committee asked me to come and shoot a highlight reel of the Ag Olympics booth they ran at the Wyoming Football Wyoming Needs Agriculture Day. I gave away all rights to this one except for bragging rights.

If You Come Out To The Fair

2016-11-13T00:28:26+00:00

A sort of documentary about the various activities at the Albany County Fair: shooting sports, indoor projects, horse shows, beef shows, family night, round robin, and the junior livestock sale. All available for you to see “if you come out to the fair.” Filmed entirely during the 2016 Albany County Fair.

Justin's Reel

2016-11-07T21:11:02+00:00

A less romantic look at the 2016 Albany County Fair. Named for Justin Chatfield, the boy speaking during the opening scene. Music: “Jenny’s Theme” by Jason Shaw (http://audionautix.com)

Albany County Fair - 2015

2016-02-01T11:46:10+00:00

A short montage of the kids, their projects, and all of the fun to be had at the Albany County Fair in 2015.

AI 2015

2015-12-15T11:20:23+00:00

Two AI techs. A herd of cows. It was breeding season and time to artificially inseminate those cows.

Music: “Thingamajig” by Jason Shaw (http://audionautix.com)

Starring: Thomas A. Christensen II, Amanda Christensen

In The Hayfields

2015-11-05T19:32:44+00:00

A complete trip through the swathing, raking, and baling we did during haying season this year and last year as captured by my GoPro.

Ranching Like A Hero

2015-07-10T18:23:48+00:00

No acting. No retakes. Not even a “Pose for the camera!” Just 100% real ranch work. Filmed 100% on Wyoming ranches with a GoPro HERO3+ Silver. Music: “Swansong (Instrumental Version)” by Josh Woodward (http://www.joshwoodward.com/)

Non Verum: The Mystery Killer

2015-06-12T11:58:14+00:00

During the winter of 2003-2004, a mysterious disease rampaged through the United States and Russia unknown to a majority of people, killing thousands of people, and maiming scores of livestock. This is the story of the least-known epidemic in history, as told by the people who conquered the illness in the end.

The High Plains 4-H Carnival Booth 2015

2015-03-20T00:00:00+00:00

Each year, the Albany County 4-H Council holds a county-wide carnival, and each club in Albany County must make a booth to run during the carnival. This year, the carnival theme was “Marti Gras” (even though the date did not coincide with Marti Gras). Not to be deterred, the High Plains 4-H Club, under the leadership of our carnival committee chairman, David Decker, made our traditional rubber-band shooting gallery booth, which of course featured the notorious HIGH PLAINS CARNIVAL CONTRAPTION. Not to sound like I’m bragging, but it won 1st place at the carnival.

CREDITS High Plains 4-H Club Carnival Committee Chairman David Decker Music “Hustle” by Kevin MacLeod (incompetech.com) Everything else (well, almost) Yours truly (Thomas A. Christensen II)

Repetition - Reloading

2015-02-16T00:00:00+00:00

Reloading ammunition - a repetitious task if ever there was one. Special thanks to my dad for his help on reloading, lighting and camera setup, and reviewing the edited product. Music: “Prelude No. 14” by Chris Zabriskie (chriszabriskie.com) Obtained from the Vimeo Music Store: vimeo.com/musicstore/track/53821/prelude-no-14-by-chris-zabriskie/ Created for the Weekend Challenge: Vimeo Weekend Challenge

Haying Time

2015-02-02T00:00:00+00:00

The story of our hay crop - 2014, as captured by both my Nikon and GoPro in both real time and time-lapse. Produced, directed, filmed and edited by yours truly (Thomas A. Christensen II). Music: “Timen Passing By” by Jason Shaw (audionautix.com/index.html) - obtained from the Vimeo music store.

The Christmas Cannon

2014-12-26T15:45:36+00:00

Cow Roundup and Loading - September 28, 2014

2014-12-11T00:00:00+00:00

The Tom Williams family showed up to help us roundup the cows, and I captured time-lapse of the whole thing with my GoPro.

Cow Herding with Magica - 1

2014-12-04T00:00:00+00:00

On a cloudy day, Magica was ready to go get the cows and move them to their new pasture.

Cow Herding with Magica - 2

2014-12-02T00:00:00+00:00

It was time to bring the cows in for pregchecking, and I captured it all with my GoPro. Here is a selected scene where Magica helps out.

The Wild West's Bloopers

2014-12-01T00:00:00+00:00

Just because the West wasn’t wild doesn’t mean that there weren’t some wildly funny mistakes made there. Entered in the Wyoming State 4-H FilmFest.

The Wild West Wasn't So Wild After All!

2014-11-22T00:00:00+00:00

Mention the West to the average person, and images of gunfights, barfights, and train robberies appear in their mind. Recently. historians have begun to refute these visions, though. Learn about what made the Wild West really quite tame compared to today’s civilization from the words of historians like Thomas E. Woods, Jr, Terry Anderson, and Peter Hill. Then listen to old westerners like Buffalo Bill Cody, J. H. Beadle, and a gold miner tell what they knew about the “Wild West.”

Inspired by Thomas E. Woods, Jr.: “Was the ‘Wild West’ Really So Wild?” in 33 Questions About American History You’re not Supposed to Ask (book)

Other sources include:

Abbot, E. C. & Smith, Helena Huntington. We Pointed Them North: Recollections of a Cowpuncher (book)
Anderson, Terry L. & Hill, Peter J. The Not So Wild, Wild West (book). Morriss, Andrew P. “Hayek & Cowboys: Customary Law in the American West” in NYU Journal of Law & Liberty (journal). Retrieved from heinonline.org/
Tierney, John. “The Mild, Mild West” in The New York Times (newspaper). Retrieved from search.proquest.com.proxy.lccc.wy.edu/

Entered in the Wyoming State 4-H FilmFest.

CREDITS

Directed by Thomas A. Christensen II

Producers:

Screenplay by Thomas A. Christensen II

CAST

Host: Amanda Christensen
Billy the Kid: Thaddaeus Christensen
Pat Garret: Jeremiah Hewlett
Reporter: Malea Christensen
Buffalo Bill: Thaddaeus Christensen
J. H. Beadle: Thomas A. Christensen II
Miner: Jedidiah Hewlett

MUSIC

“Billy the Kid” by Traditional, performed by:

Recorded and Mixed by Thomas A. Christensen II

COSTUMES

ON SITE AUDIO RECORDING

TRANSPORTATION

Special thank to the Wyoming Territorial Park for use of their Old West Town.