Johnson CM

References (7)

Title : Draft genome sequence of Rhizobium sp. strain PDO1-076, a bacterium isolated from Populus deltoides - Brown_2012_J.Bacteriol_194_2383
Author(s) : Brown SD , Klingeman DM , Lu TY , Johnson CM , Utturkar SM , Land ML , Schadt CW , Doktycz MJ , Pelletier DA
Ref : Journal of Bacteriology , 194 :2383 , 2012
Abstract : Rhizobium sp. strain PDO1-076 is a plant-associated bacterium isolated from Populus deltoides, and its draft genome sequence is reported.
ESTHER : Brown_2012_J.Bacteriol_194_2383
PubMedSearch : Brown_2012_J.Bacteriol_194_2383
PubMedID: 22493196
Gene_locus related to this paper: 9rhiz-h4f7c5 , 9rhiz-h4f4d6 , 9rhiz-h4f3c4 , 9rhiz-h4fct0

Title : Draft genome sequence for Microbacterium laevaniformans strain OR221, a bacterium tolerant to metals, nitrate, and low pH - Brown_2012_J.Bacteriol_194_3279
Author(s) : Brown SD , Palumbo AV , Panikov N , Ariyawansa T , Klingeman DM , Johnson CM , Land ML , Utturkar SM , Epstein SS
Ref : Journal of Bacteriology , 194 :3279 , 2012
Abstract : Microbacterium laevaniformans strain OR221 was isolated from subsurface sediments obtained from the Field Research Center (FRC) in Oak Ridge, TN. It was characterized as a bacterium tolerant to heavy metals, such as uranium, nickel, cobalt, and cadmium, as well as nitrate and low pH. We present its draft genome sequence.
ESTHER : Brown_2012_J.Bacteriol_194_3279
PubMedSearch : Brown_2012_J.Bacteriol_194_3279
PubMedID: 22628508
Gene_locus related to this paper: 9mico-h8e8b0

Title : Twenty-one genome sequences from Pseudomonas species and 19 genome sequences from diverse bacteria isolated from the rhizosphere and endosphere of Populus deltoides - Brown_2012_J.Bacteriol_194_5991
Author(s) : Brown SD , Utturkar SM , Klingeman DM , Johnson CM , Martin SL , Land ML , Lu TY , Schadt CW , Doktycz MJ , Pelletier DA
Ref : Journal of Bacteriology , 194 :5991 , 2012
Abstract : To aid in the investigation of the Populus deltoides microbiome, we generated draft genome sequences for 21 Pseudomonas strains and 19 other diverse bacteria isolated from Populus deltoides roots. Genome sequences for isolates similar to Acidovorax, Bradyrhizobium, Brevibacillus, Caulobacter, Chryseobacterium, Flavobacterium, Herbaspirillum, Novosphingobium, Pantoea, Phyllobacterium, Polaromonas, Rhizobium, Sphingobium, and Variovorax were generated.
ESTHER : Brown_2012_J.Bacteriol_194_5991
PubMedSearch : Brown_2012_J.Bacteriol_194_5991
PubMedID: 23045501
Gene_locus related to this paper: 9burk-j0kac2 , 9burk-j0kqh2 , 9burk-j1epu6 , 9rhiz-j3hsc6 , agrrk-b9jlj2 , agrrk-b9jlr1 , braja-pcaD , brebn-c0z527 , psepf-q3k919 , psepu-PIP , 9rhiz-j2b0t6 , 9rhiz-j2b5v7 , 9sphn-j2csl5 , 9sphn-j2da91 , 9sphn-j2dss9 , 9burk-j2kvv7 , 9rhiz-j2l8v8 , 9rhiz-j2lcz2 , 9entr-j2lgp0 , 9flao-j2sqj3 , 9brad-j2w5i6 , 9brad-j2w6z0 , 9sphn-j2w924 , 9sphn-j2wk32 , 9sphn-j2wv03 , 9sphn-j2zvl4 , 9caul-j3aar6 , 9sphn-j3aj11 , 9caul-j3aj83 , 9caul-j3an06 , 9sphn-j3aqd5 , 9caul-j3ati4 , 9entr-j3c1e1 , 9brad-j3cpx3 , 9burk-j3cy68 , 9entr-j3de95 , 9rhiz-j3hvd3 , 9brad-j3hza4 , 9rhiz-j2asm7 , 9rhiz-j2idv1 , 9burk-j2l7t2 , 9psed-j2lun4 , 9psed-j2p2u8 , 9psed-j2pci7 , 9psed-j3dng2 , 9psed-j3dpc9 , 9psed-j3dtv9 , 9psed-j3ebe9 , 9psed-j3ey90 , 9psed-j3ezm7 , 9psed-j3g853 , 9psed-j3gq12 , 9psed-j3har6 , 9psed-j3hd18 , 9brad-j3i495 , 9brad-j3hvp0 , 9rhiz-j3htx9 , 9sphn-j2lbm8 , 9psed-j3a9q8 , 9psed-j2n8k4 , 9sphn-j2gm31 , 9rhiz-j2kud1 , 9burk-j2kv91 , 9burk-j2ktg3 , 9psed-j2na56 , 9psed-w6ve15 , 9psed-j2wmk3 , 9psed-j2rmx2 , 9psed-j2t106 , 9psed-j3gvm6 , 9psed-j2q9u0 , 9psed-j2wr89 , 9burk-j3d9h4 , 9burk-j3cg20 , 9burk-j0kgm2 , 9entr-j2ua00 , 9entr-j2v6d3 , 9entr-j3diy7 , 9burk-j3dit4 , 9rhiz-j3bsd5 , 9psed-j2x4z3 , 9caul-j2gqn4 , 9caul-j2gw95 , 9sphn-j2pjy3 , 9sphn-j2ws91 , 9sphn-j2zyh1 , 9burk-j2lbr7 , 9caul-j2gky7 , 9rhiz-j2ww97 , 9rhiz-j3hls4 , 9rhiz-j2ic95 , 9psed-w6w1j7 , 9rhiz-j2l3f6 , 9psed-a0a068aip7 , 9psed-s2jxx1 , 9burk-j1eha9 , sphya-a0a084e4h2 , 9burk-j3cy50 , 9psed-j3e058 , 9psed-w6v6a4 , 9psed-j3gxm0 , 9rhiz-j2lcu3 , 9rhiz-j2rcz3 , 9burk-j2m4l9 , 9psed-j3b3h3 , 9burk-j3dhf9 , 9burk-j2vbc2 , 9psed-j2nei8 , 9burk-j2vlm0 , 9bacl-l5mp14 , 9psed-w6wbi3 , 9sphn-j2dbb2 , 9rhiz-j2ij37 , 9rhiz-j2kw28 , 9psed-j2n6d9 , 9caul-j2pfh5 , 9sphn-j2wci4 , 9psed-j2wi64 , 9sphn-j3ap33 , 9rhiz-j3hp99 , 9psed-j3ivu6 , 9rhiz-j2v1w2 , 9psed-j2t819 , 9flao-j2krx6 , 9burk-j1eg31 , 9burk-j2kx41 , 9rhiz-j2l0y1 , 9sphn-j2gj61

Title : Draft genome sequences for two metal-reducing Pelosinus fermentans strains isolated from a Cr(VI)-contaminated site and for type strain R7 - Brown_2012_J.Bacteriol_194_5147
Author(s) : Brown SD , Podar M , Klingeman DM , Johnson CM , Yang ZK , Utturkar SM , Land ML , Mosher JJ , Hurt RA, Jr. , Phelps TJ , Palumbo AV , Arkin AP , Hazen TC , Elias DA
Ref : Journal of Bacteriology , 194 :5147 , 2012
Abstract : Pelosinus fermentans 16S rRNA gene sequences have been reported from diverse geographical sites since the recent isolation of the type strain. We present the genome sequence of the P. fermentans type strain R7 (DSM 17108) and genome sequences for two new strains with different abilities to reduce iron, chromate, and uranium.
ESTHER : Brown_2012_J.Bacteriol_194_5147
PubMedSearch : Brown_2012_J.Bacteriol_194_5147
PubMedID: 22933770
Gene_locus related to this paper: 9firm-i9num7 , 9firm-i9lkp7

Title : Splanchnic spillover of extracellular lipase-generated fatty acids in overweight and obese humans - Nelson_2007_Diabetes_56_2878
Author(s) : Nelson RH , Basu R , Johnson CM , Rizza RA , Miles JM
Ref : Diabetes , 56 :2878 , 2007
Abstract : OBJECTIVE: Triglyceride-rich lipoproteins, primarily chylomicrons, can contribute to plasma free fatty acid (FFA) concentrations via spillover of fatty acids during intravascular hydrolysis into the venous effluent of some tissues. The present study was undertaken to determine whether spillover occurs in the splanchnic bed of humans. RESEARCH DESIGN AND
METHODS: Arterial and hepatic venous blood was sampled in postabsorptive (n = 6; study A) and postprandial (n = 5; study B) obese humans during infusion of carbon-labeled ((14)C or (13)C) oleate and (3)H triolein, the latter incorporated into a lipid emulsion as a surrogate for chylomicrons. Spillover was determined by measuring production of (3)H oleate.
RESULTS: Splanchnic spillover was higher than nonsplanchnic systemic spillover in both study A (60 +/- 7 vs. 24 +/- 6%; P < 0.01) and study B (54 +/- 3 vs. 16 +/- 5%; P < 0.005). Because portal vein sampling is not feasible in humans, assumptions regarding actual spillover in nonhepatic splanchnic tissues were required for the spillover calculation. A mathematical model was developed and demonstrated that nonhepatic splanchnic spillover rates in study A and study B of 69 and 80%, respectively, provided the best fit with the data. There was preferential splanchnic uptake of triglyceride fatty acids compared with FFAs in study B (fractional extraction 61 +/- 3 vs. 33 +/- 2%; P < 0.005).
CONCLUSIONS: These data confirm previous studies indicating that the transport of FFAs and triglyceride fatty acids are partitioned in tissues and indicate that splanchnic spillover from triglyceride-rich lipoproteins may be a significant source of both portal venous and systemic FFAs.
ESTHER : Nelson_2007_Diabetes_56_2878
PubMedSearch : Nelson_2007_Diabetes_56_2878
PubMedID: 17881612

Title : The DNA sequence and analysis of human chromosome 6 - Mungall_2003_Nature_425_805
Author(s) : Mungall AJ , Palmer SA , Sims SK , Edwards CA , Ashurst JL , Wilming L , Jones MC , Horton R , Hunt SE , Scott CE , Gilbert JG , Clamp ME , Bethel G , Milne S , Ainscough R , Almeida JP , Ambrose KD , Andrews TD , Ashwell RI , Babbage AK , Bagguley CL , Bailey J , Banerjee R , Barker DJ , Barlow KF , Bates K , Beare DM , Beasley H , Beasley O , Bird CP , Blakey S , Bray-Allen S , Brook J , Brown AJ , Brown JY , Burford DC , Burrill W , Burton J , Carder C , Carter NP , Chapman JC , Clark SY , Clark G , Clee CM , Clegg S , Cobley V , Collier RE , Collins JE , Colman LK , Corby NR , Coville GJ , Culley KM , Dhami P , Davies J , Dunn M , Earthrowl ME , Ellington AE , Evans KA , Faulkner L , Francis MD , Frankish A , Frankland J , French L , Garner P , Garnett J , Ghori MJ , Gilby LM , Gillson CJ , Glithero RJ , Grafham DV , Grant M , Gribble S , Griffiths C , Griffiths M , Hall R , Halls KS , Hammond S , Harley JL , Hart EA , Heath PD , Heathcott R , Holmes SJ , Howden PJ , Howe KL , Howell GR , Huckle E , Humphray SJ , Humphries MD , Hunt AR , Johnson CM , Joy AA , Kay M , Keenan SJ , Kimberley AM , King A , Laird GK , Langford C , Lawlor S , Leongamornlert DA , Leversha M , Lloyd CR , Lloyd DM , Loveland JE , Lovell J , Martin S , Mashreghi-Mohammadi M , Maslen GL , Matthews L , Mccann OT , McLaren SJ , McLay K , McMurray A , Moore MJ , Mullikin JC , Niblett D , Nickerson T , Novik KL , Oliver K , Overton-Larty EK , Parker A , Patel R , Pearce AV , Peck AI , Phillimore B , Phillips S , Plumb RW , Porter KM , Ramsey Y , Ranby SA , Rice CM , Ross MT , Searle SM , Sehra HK , Sheridan E , Skuce CD , Smith S , Smith M , Spraggon L , Squares SL , Steward CA , Sycamore N , Tamlyn-Hall G , Tester J , Theaker AJ , Thomas DW , Thorpe A , Tracey A , Tromans A , Tubby B , Wall M , Wallis JM , West AP , White SS , Whitehead SL , Whittaker H , Wild A , Willey DJ , Wilmer TE , Wood JM , Wray PW , Wyatt JC , Young L , Younger RM , Bentley DR , Coulson A , Durbin R , Hubbard T , Sulston JE , Dunham I , Rogers J , Beck S
Ref : Nature , 425 :805 , 2003
Abstract : Chromosome 6 is a metacentric chromosome that constitutes about 6% of the human genome. The finished sequence comprises 166,880,988 base pairs, representing the largest chromosome sequenced so far. The entire sequence has been subjected to high-quality manual annotation, resulting in the evidence-supported identification of 1,557 genes and 633 pseudogenes. Here we report that at least 96% of the protein-coding genes have been identified, as assessed by multi-species comparative sequence analysis, and provide evidence for the presence of further, otherwise unsupported exons/genes. Among these are genes directly implicated in cancer, schizophrenia, autoimmunity and many other diseases. Chromosome 6 harbours the largest transfer RNA gene cluster in the genome; we show that this cluster co-localizes with a region of high transcriptional activity. Within the essential immune loci of the major histocompatibility complex, we find HLA-B to be the most polymorphic gene on chromosome 6 and in the human genome.
ESTHER : Mungall_2003_Nature_425_805
PubMedSearch : Mungall_2003_Nature_425_805
PubMedID: 14574404
Gene_locus related to this paper: human-ABHD16A , human-BPHL , human-FAM135A , human-PRSS16 , human-SERAC1

Title : The DNA sequence and comparative analysis of human chromosome 20 - Deloukas_2001_Nature_414_865
Author(s) : Deloukas P , Matthews LH , Ashurst J , Burton J , Gilbert JG , Jones M , Stavrides G , Almeida JP , Babbage AK , Bagguley CL , Bailey J , Barlow KF , Bates KN , Beard LM , Beare DM , Beasley OP , Bird CP , Blakey SE , Bridgeman AM , Brown AJ , Buck D , Burrill W , Butler AP , Carder C , Carter NP , Chapman JC , Clamp M , Clark G , Clark LN , Clark SY , Clee CM , Clegg S , Cobley VE , Collier RE , Connor R , Corby NR , Coulson A , Coville GJ , Deadman R , Dhami P , Dunn M , Ellington AG , Frankland JA , Fraser A , French L , Garner P , Grafham DV , Griffiths C , Griffiths MN , Gwilliam R , Hall RE , Hammond S , Harley JL , Heath PD , Ho S , Holden JL , Howden PJ , Huckle E , Hunt AR , Hunt SE , Jekosch K , Johnson CM , Johnson D , Kay MP , Kimberley AM , King A , Knights A , Laird GK , Lawlor S , Lehvaslaiho MH , Leversha M , Lloyd C , Lloyd DM , Lovell JD , Marsh VL , Martin SL , McConnachie LJ , McLay K , McMurray AA , Milne S , Mistry D , Moore MJ , Mullikin JC , Nickerson T , Oliver K , Parker A , Patel R , Pearce TA , Peck AI , Phillimore BJ , Prathalingam SR , Plumb RW , Ramsay H , Rice CM , Ross MT , Scott CE , Sehra HK , Shownkeen R , Sims S , Skuce CD , Smith ML , Soderlund C , Steward CA , Sulston JE , Swann M , Sycamore N , Taylor R , Tee L , Thomas DW , Thorpe A , Tracey A , Tromans AC , Vaudin M , Wall M , Wallis JM , Whitehead SL , Whittaker P , Willey DL , Williams L , Williams SA , Wilming L , Wray PW , Hubbard T , Durbin RM , Bentley DR , Beck S , Rogers J
Ref : Nature , 414 :865 , 2001
Abstract : The finished sequence of human chromosome 20 comprises 59,187,298 base pairs (bp) and represents 99.4% of the euchromatic DNA. A single contig of 26 megabases (Mb) spans the entire short arm, and five contigs separated by gaps totalling 320 kb span the long arm of this metacentric chromosome. An additional 234,339 bp of sequence has been determined within the pericentromeric region of the long arm. We annotated 727 genes and 168 pseudogenes in the sequence. About 64% of these genes have a 5' and a 3' untranslated region and a complete open reading frame. Comparative analysis of the sequence of chromosome 20 to whole-genome shotgun-sequence data of two other vertebrates, the mouse Mus musculus and the puffer fish Tetraodon nigroviridis, provides an independent measure of the efficiency of gene annotation, and indicates that this analysis may account for more than 95% of all coding exons and almost all genes.
ESTHER : Deloukas_2001_Nature_414_865
PubMedSearch : Deloukas_2001_Nature_414_865
PubMedID: 11780052
Gene_locus related to this paper: human-ABHD12 , human-ABHD16B , human-CTSA , human-NDRG3 , human-RBBP9