Search Results - "Kalikin, L M"

Preliminary study of immunomagnetic quantification of circulating tumor cells in patients with advanced disease by Chen, B.T., Loberg, R.D., Neeley, C.K., O’Hara, S.M., Gross, S., Doyle, G., Dunn, R.L., Kalikin, L.M., Pienta, K.J.

“…To enumerate the amount of circulating tumor cells (CTCs) in patients with advanced prostate cancer and to investigate the relationship between these numbers,…”
Get full text

Isolation and mapping of a human septin gene to a region on chromosome 17q, commonly deleted in sporadic epithelial ovarian tumors by Russell, S E, McIlhatton, M A, Burrows, J F, Donaghy, P G, Chanduloy, S, Petty, E M, Kalikin, L M, Church, S W, McIlroy, S, Harkin, D P, Keilty, G W, Cranston, A N, Weissenbach, J, Hickey, I, Johnston, P G

“…Allele losses from chromosome 17 are common in sporadic ovarian tumors. Previously, we reported high rates of LOH (up to 70%) from 17q25 at the marker THH59 in…”
Get full text

Genomic and Expression Analyses of Alternatively Spliced Transcripts of the MLL Septin-like Fusion Gene (MSF) That Map to a 17q25 Region of Loss in Breast and Ovarian Tumors by Kalikin, Linda M., Sims, Heather L., Petty, Elizabeth M.

“…We previously defined a common region of 17q25 loss in breast and ovarian tumors, suggesting localization of at least one putative tumor suppressor gene…”
Get full text

A region of interstitial 17q25 allelic loss in ovarian tumors coincides with a defined region of loss in breast tumors by KALIKIN, L. M, FRANK, T. S, SVOBODA-NEWMAN, S. M, WETZEL, J. C, COONEY, K. A, PETTY, E. M

“…Chromosomal regions of allelic imbalance in tumors are predicted to define the general location of tumor suppressor genes. We previously localized a putative…”
Get full text

Tumor Cell Growth Arrest Caused by Subchromosomal Transferable DNA Fragments from Chromosome 11 by Koi, Minoru, Johnson, Laura A., Kalikin, Linda M., Peter F. R. Little, Nakamura, Yusuke, Feinberg, Andrew P.

“…A fundamental problem in the identification and isolation of tumor suppressor and other growth-inhibiting genes is the loss of power of genetic complementation…”
Get full text

Multiple Genetic Loci within 11p15 Defined by Beckwith-Wiedemann Syndrome Rearrangement Breakpoints and Subchromosomal Transferable Fragments by Hoovers, J M, Kalikin, L M, Johnson, L A, Alders, M, Redeker, B, Law, D J, Bliek, J, Steenman, M, Benedict, M, Wiegant, J, Lengauer, C, Taillon-Miller, P, Schlessinger, D, Edwards, M C, Elledge, S J, Ivens, A, Westerveld, A, Little, P, Mannens, M, Feinberg, A P

“…Beckwith-Wiedemann syndrome (BWS) involves fetal overgrowth and predisposition to a wide variety of embryonal tumors of childhood. We have previously found…”
Get full text

Wilms Tumor Locus on 11p13 Defined by Multiple CpG Island-Associated Transcripts by Bonetta, Laura, Kuehn, Stephen E., Huang, Annie, Law, David J., Kalikin, Linda M., Koi, Minoru, Reeve, Anthony E., Brownstein, Bernard H., Yeger, Herman, Bryan R. G. Williams, Feinberg, Andrew P.

“…Wilms tumor is an embryonal kidney tumor involving complex pathology and genetics. The Wilms tumor locus on chromosome 11p13 is defined by the region of…”
Get full text

An Integrated Physical and Gene Map of Human Distal Chromosome 17q24–Proximal 17q25 Encompassing Multiple Disease Loci by Kalikin, Linda M., George, Roberta Ann V., Keller, Marcel P., Bort, Sylvia, Bowler, Nathaniel S., Law, David J., Chance, Phillip F., Petty, Elizabeth M.

“…Genetic mapping studies suggest that a small interval on human chromosome distal 17q24–proximal 17q25 harbors genes involved in sporadic breast and ovarian…”
Get full text

Mutant deoxynucleotide carrier is associated with congenital microcephaly by Rosenberg, Marjorie J, Agarwala, Richa, Bouffard, Gerard, Davis, Joie, Fiermonte, Giuseppe, Hilliard, Mark S, Koch, Thorsten, Kalikin, Linda M, Makalowska, Izabela, Morton, D. Holmes, Petty, Elizabeth M, Weber, James L, Palmieri, Ferdinando, Kelley, Richard I, Schäffer, Alejandro A, Biesecker, Leslie G

“…The disorder Amish microcephaly (MCPHA) is characterized by severe congenital microcephaly, elevated levels of α-ketoglutarate in the urine and premature…”
Get full text

Loss of imprinting in human cancer by Feinberg, A P, Kalikin, L M, Johnson, L A, Thompson, J S

Get more information

Genomic characterization of human SEC14L1 splice variants within a 17q25 candidate tumor suppressor gene region and identification of an unrelated embedded expressed sequence tag by Kalikin, Linda M, Bugeaud, Emily M, Palmbos, Philip L, Lyons, Jr., Robert H, Petty, Elizabeth M

“…Human SEC14L1 shows partial sequence homology to the budding yeast SEC14 protein and the Japanese flying squid retinal-binding protein and was previously…”
Get full text

Distal chromosome 17q loss in Barrett's esophageal and gastric cardia adenocarcinomas: Implications for tumorigenesis by Petty, Elizabeth M., Kalikin, Linda M., Orringer, Mark B., Beer, David G.

“…The molecular genetic mechanisms underlying esophageal cancer are poorly understood. However, a novel gene that may be involved in esophageal carcinogenesis…”
Get full text

Detailed deletion analysis of sporadic breast tumors defines an interstitial region of allelic loss on 17q25 by Kalikin, L M, Qu, X, Frank, T S, Caduff, R F, Svoboda, S M, Law, D J, Petty, E M

“…Whole genome analyses of breast tumors with polymorphic markers have detected nonrandom loss of heterozygosity on multiple chromosomes, providing clues to the…”
Get full text

Imprinting of the Gene Encoding a Human Cyclin-Dependent Kinase Inhibitor, p57KIP2, on Chromosome 11p15 by Matsuoka, Shuhei, Thompson, Jeffrey S., Edwards, Michael C., Barletta, Janet M., Grundy, Paul, Kalikin, Linda M., Harper, J. Wade, Elledge, Stephen J., Feinberg, Andrew P.

“…Parental origin-specific alterations of chromosome 11p15 in human cancer suggest the involvement of one or more maternally expressed imprinted genes involved…”
Get full text

A genomic clone of Zfy-1 from a YDOM mouse strain detects post-meiotic gene expression of Zfy in testes by Kalikin, L M, Fujimoto, H, Witt, M P, Verga, V, Erickson, R P

“…In order to obtain a genomic clone of Zfy-1 from a Y chromosome of Mus musculus domesticus (YDOM) origin, we cloned size-fractionated SJL/J DNA in EMBL-4 and…”
Get more information

Development and evaluation of a PCR and mass spectroscopy (PCR–MS)-based method for quantitative, type-specific detection of human papillomavirus by Patel, Divya A., Shih, Yang-Jen, Newton, Duane W., Michael, Claire W., Oeth, Paul A., Kane, Michael D., Opipari, Anthony W., Ruffin, IV, Mack T., Kalikin, Linda M., Kurnit, David M.

“…Knowledge of the central role of high-risk human papillomavirus (HPV) in cervical carcinogenesis, coupled with an emerging need to monitor the efficacy of…”
Get full text

In Vitro Activities of a Novel Nanoemulsion against Burkholderia and Other Multidrug-Resistant Cystic Fibrosis-Associated Bacterial Species by LiPuma, John J, Rathinavelu, Sivaprakash, Foster, Bridget K, Keoleian, Jordan C, Makidon, Paul E, Kalikin, Linda M, Baker, Jr, James R

“…Classifications Services AAC Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley Reddit…”
Get full text

Dynamic process of prostate cancer metastasis to bone by Tantivejkul, Kwanchanit, Kalikin, Linda M., Pienta, Kenneth J.

“…Prostate cancer metastasis to the bone occurs at high frequency in patients with advanced disease, causing significant morbidity and mortality. Over a century…”
Get full text

Bone Turnover Mediates Preferential Localization of Prostate Cancer in the Skeleton by Schneider, Abraham, Kalikin, Linda M, Mattos, Ana C, Keller, Evan T, Allen, Matthew J, Pienta, Kenneth J, McCauley, Laurie K

“…Bone metastasis is a common untreatable complication associated with prostate cancer. Metastatic cells seed in skeletal sites under active turnover containing…”
Get full text

Differential expression analysis of MIM (MTSS1) splice variants and a functional role of MIM in prostate cancer cell biology by Loberg, Robert D, Neeley, Chris K, Adam-Day, Lashon L, Fridman, Yaron, St John, Lauren N, Nixdorf, Sheri, Jackson, Paul, Kalikin, Linda M, Pienta, Kenneth J

“…We previously identified MIM-A (missing in metastasis, MTSS1) by differential display techniques as missing in invasive, metastatic bladder cancer cell lines…”
Get more information