TY  - JOUR
A1  - Schartl, Manfred
A1  - Walter, Ronald B.
A1  - Shen, Yingjia
A1  - Garcia, Tzintzuni
A1  - Catchen, Julian
A1  - Amores, Angel
A1  - Braasch, Ingo
A1  - Chalopin, Domitille
A1  - Volff, Jean-Nicolas
A1  - Lesch, Klaus-Peter
A1  - Bisazza, Angelo
A1  - Minx, Pat
A1  - Hillier, LaDeana
A1  - Wilson, Richard K.
A1  - Fürstenberg, Susan
A1  - Boore, Jeffrey
A1  - Searle, Steve
A1  - Postlethwait, John H.
A1  - Warren, Wesley C.
T1  - The genome of the platyfish, Xiphophorus maculatus, provides insights into evolutionary adaptation and several complex traits
JF  - Nature Genetics
N2  - Several attributes intuitively considered to be typical mammalian features, such as complex behavior, live birth and malignant disease such as cancer, also appeared several times independently in lower vertebrates. The genetic mechanisms underlying the evolution of these elaborate traits are poorly understood. The platyfish, X. maculatus, offers a unique model to better understand the molecular biology of such traits. We report here the sequencing of the platyfish genome. Integrating genome assembly with extensive genetic maps identified an unexpected evolutionary stability of chromosomes in fish, in contrast to in mammals. Genes associated with viviparity show signatures of positive selection, identifying new putative functional domains and rare cases of parallel evolution. We also find that genes implicated in cognition show an unexpectedly high rate of duplicate gene retention after the teleost genome duplication event, suggesting a hypothesis for the evolution of the behavioral complexity in fish, which exceeds that found in amphibians and reptiles.
KW  - genomics
KW  - genomic analysis
KW  - evolutionary biology
Y1  - 2013
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-132152
VL  - 45
IS  - 5
ER  - 
TY  - JOUR
A1  - Schartl, Manfred
A1  - Shen, Yingjia
A1  - Maurus, Katja
A1  - Walter, Ron
A1  - Tomlinson, Chad
A1  - Wilson, Richard K.
A1  - Postlethwait, John
A1  - Warren, Wesley C.
T1  - Whole body melanoma transcriptome response in medaka
JF  - PLoS ONE
N2  - The incidence of malignant melanoma continues to increase each year with poor prognosis for survival in many relapse cases. To reverse this trend, whole body response measures are needed to discover collaborative paths to primary and secondary malignancy. Several species of fish provide excellent melanoma models because fish and human melanocytes both appear in the epidermis, and fish and human pigment cell tumors share conserved gene expression signatures. For the first time, we have examined the whole body transcriptome response to invasive melanoma as a prelude to using transcriptome profiling to screen for drugs in a medaka (Oryzias latipes) model. We generated RNA-seq data from whole body RNA isolates for controls and melanoma fish. After testing for differential expression, 396 genes had significantly different expression (adjusted p-value <0.02) in the whole body transcriptome between melanoma and control fish; 379 of these genes were matched to human orthologs with 233 having annotated human gene symbols and 14 matched genes that contain putative deleterious variants in human melanoma at varying levels of recurrence. A detailed canonical pathway evaluation for significant enrichment showed the top scoring pathway to be antigen presentation but also included the expected melanocyte development and pigmentation signaling pathway. Results revealed a profound down-regulation of genes involved in the immune response, especially the innate immune system. We hypothesize that the developing melanoma actively suppresses the immune system responses of the body in reacting to the invasive malignancy, and that this mal-adaptive response contributes to disease progression, a result that suggests our whole-body transcriptomic approach merits further use. In these findings, we also observed novel genes not yet identified in human melanoma expression studies and uncovered known and new candidate drug targets for further testing in this malignant melanoma medaka model.
KW  - metastatic melanoma
KW  - expression
KW  - fish
KW  - cancer
KW  - stage III
KW  - melanogenesis
KW  - genome cells
KW  - gene
KW  - contributes
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-144714
VL  - 10
IS  - 12
ER  - 
TY  - JOUR
A1  - Rasouli, Fatemeh
A1  - Kiani-Pouya, Ali
A1  - Shabala, Lana
A1  - Li, Leiting
A1  - Tahir, Ayesha
A1  - Yu, Min
A1  - Hedrich, Rainer
A1  - Chen, Zhonghua
A1  - Wilson, Richard
A1  - Zhang, Heng
A1  - Shabala, Sergey
T1  - Salinity effects on guard cell proteome in Chenopodium quinoa
JF  - International Journal of Molecular Sciences
N2  - Epidermal fragments enriched in guard cells (GCs) were isolated from the halophyte quinoa (Chenopodium quinoa Wild.) species, and the response at the proteome level was studied after salinity treatment of 300 mM NaCl for 3 weeks. In total, 2147 proteins were identified, of which 36% were differentially expressed in response to salinity stress in GCs. Up and downregulated proteins included signaling molecules, enzyme modulators, transcription factors and oxidoreductases. The most abundant proteins induced by salt treatment were desiccation-responsive protein 29B (50-fold), osmotin-like protein OSML13 (13-fold), polycystin-1, lipoxygenase, alpha-toxin, and triacylglycerol lipase (PLAT) domain-containing protein 3-like (eight-fold), and dehydrin early responsive to dehydration (ERD14) (eight-fold). Ten proteins related to the gene ontology term “response to ABA” were upregulated in quinoa GC; this included aspartic protease, phospholipase D and plastid-lipid-associated protein. Additionally, seven proteins in the sucrose–starch pathway were upregulated in the GC in response to salinity stress, and accumulation of tryptophan synthase and L-methionine synthase (enzymes involved in the amino acid biosynthesis) was observed. Exogenous application of sucrose and tryptophan, L-methionine resulted in reduction in stomatal aperture and conductance, which could be advantageous for plants under salt stress. Eight aspartic proteinase proteins were highly upregulated in GCs of quinoa, and exogenous application of pepstatin A (an inhibitor of aspartic proteinase) was accompanied by higher oxidative stress and extremely low stomatal aperture and conductance, suggesting a possible role of aspartic proteinase in mitigating oxidative stress induced by saline conditions.
KW  - quinoa
KW  - guard cell
KW  - stomata
KW  - salt stress
KW  - proteomics analysis
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-285625
SN  - 1422-0067
VL  - 22
IS  - 1
ER  - 
TY  - JOUR
A1  - Rasouli, Fatemeh
A1  - Kiani-Pouya, Ali
A1  - Li, Leiting
A1  - Zhang, Heng
A1  - Chen, Zhonghua
A1  - Hedrich, Rainer
A1  - Wilson, Richard
A1  - Shabala, Sergey
T1  - Sugar beet (Beta vulgaris) guard cells responses to salinity stress: a proteomic analysis
JF  - International Journal of Molecular Sciences
N2  - Soil salinity is a major environmental constraint affecting crop growth and threatening global food security. Plants adapt to salinity by optimizing the performance of stomata. Stomata are formed by two guard cells (GCs) that are morphologically and functionally distinct from the other leaf cells. These microscopic sphincters inserted into the wax-covered epidermis of the shoot balance CO\(_2\) intake for photosynthetic carbon gain and concomitant water loss. In order to better understand the molecular mechanisms underlying stomatal function under saline conditions, we used proteomics approach to study isolated GCs from the salt-tolerant sugar beet species. Of the 2088 proteins identified in sugar beet GCs, 82 were differentially regulated by salt treatment. According to bioinformatics analysis (GO enrichment analysis and protein classification), these proteins were involved in lipid metabolism, cell wall modification, ATP biosynthesis, and signaling. Among the significant differentially abundant proteins, several proteins classified as “stress proteins” were upregulated, including non-specific lipid transfer protein, chaperone proteins, heat shock proteins, inorganic pyrophosphatase 2, responsible for energized vacuole membrane for ion transportation. Moreover, several antioxidant enzymes (peroxide, superoxidase dismutase) were highly upregulated. Furthermore, cell wall proteins detected in GCs provided some evidence that GC walls were more flexible in response to salt stress. Proteins such as L-ascorbate oxidase that were constitutively high under both control and high salinity conditions may contribute to the ability of sugar beet GCs to adapt to salinity by mitigating salinity-induced oxidative stress.
KW  - guard cells
KW  - stomata
KW  - sugar beet
KW  - salt stress
KW  - proteomic
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-285765
SN  - 1422-0067
VL  - 21
IS  - 7
ER  -