human | Q5 |
P6178 | Dimensions author ID | 01130233700.22 |
P4872 | GEPRIS person ID | 261474460 |
P1960 | Google Scholar author ID | dMxbwHUAAAAJ |
P6264 | Harvard Index of Botanists ID | 114056 |
P856 | official website | https://dhojsgaard.com/ |
P496 | ORCID iD | 0000-0002-8709-4091 |
P2038 | ResearchGate profile ID | Diego-Hojsgaard |
P69 | educated at | National University of the Northeast | Q5261681 |
P108 | employer | University of Vienna | Q165980 |
Leibniz Institute of Plant Genetics and Crop Plant Research | Q1354858 | ||
P734 | family name | Højsgaard | Q55217736 |
Højsgaard | Q55217736 | ||
Højsgaard | Q55217736 | ||
P735 | given name | Diego | Q3579048 |
Diego | Q3579048 | ||
Hernán | Q19688586 | ||
Hernán | Q19688586 | ||
P106 | occupation | researcher | Q1650915 |
botanist | Q2374149 | ||
P21 | sex or gender | male | Q6581097 |
Q35104710 | A little bit of sex matters for genome evolution in asexual plants |
Q92620768 | A little bit of sex prevents mutation accumulation even in apomictic polyploid plants |
Q125415551 | Alternative Evolutionary Pathways in Paspalum Involving Allotetraploidy, Sexuality, and Varied Mating Systems |
Q115564083 | Apomictic Daisies |
Q115564094 | Apomictic Grasses |
Q91920688 | Apomixis Technology: Separating the Wheat from the Chaff |
Q115564099 | Apomixis in Angiosperms |
Q115564221 | Apomixis in Other Families of Angiosperms |
Q35015554 | Asexual genome evolution in the apomictic Ranunculus auricomus complex: examining the effects of hybridization and mutation accumulation |
Q97565330 | Can We Use Gene-Editing to Induce Apomixis in Sexual Plants? |
Q97411287 | Chasing the Apomictic Factors in the Ranunculus auricomus Complex: Exploring Gene Expression Patterns in Microdissected Sexual and Apomictic Ovules |
Q89943407 | Ecological setup, ploidy diversity, and reproductive biology of Paspalum modestum, a promising wetland forage grass from South America |
Q34658840 | Emergence of apospory and bypass of meiosis via apomixis after sexual hybridisation and polyploidisation |
Q112766607 | First Glimpse on Spring Starflower Domestication |
Q116816679 | IAPT chromosome data 36 |
Q28655347 | ITS polymorphisms shed light on hybrid evolution in apomictic plants: a case study on the Ranunculus auricomus complex |
Q115564205 | Identifying Apomixis in Nature |
Q50132963 | Intraspecific ecological niche divergence and reproductive shifts foster cytotype displacement and provide ecological opportunity to polyploids |
Q115564226 | Molecular Basis of Apomixis and Applications |
Q101304198 | New records and range expansion for Paspalum procurrens and P. volcanense in northwestern Argentina and southeastern Bolivia |
Q35823800 | Niche dynamics of alien species do not differ among sexual and apomictic flowering plants |
Q35970096 | Photoperiod Extension Enhances Sexual Megaspore Formation and Triggers Metabolic Reprogramming in Facultative Apomictic Ranunculus auricomus |
Q35903267 | Population Genetic Structure and Reproductive Strategy of the Introduced Grass Centotheca lappacea in Tropical Land-Use Systems in Sumatra |
Q115564236 | Sexual Development and Pathways to Apomixis |
Q95320181 | Sexual modulation in a polyploid grass: a reproductive contest between environmentally inducible sexual and genetically dominant apomictic pathways |
Q115581764 | Sexuality, apomixis, ploidy levels, and genomic relationships among four Paspalum species of the subgenus Anachyris (Poaceae) |
Q114035019 | Single Independent Autopolyploidization Events From Distinct Diploid Gene Pools and Residual Sexuality Support Range Expansion of Locally Adapted Tetraploid Genotypes in a South American Grass |
Q101477589 | Skipping sex: A nonrecombinant genomic assemblage of complementary reproductive modules |
Q34520067 | Taxonomy and Biogeography of Apomixis in Angiosperms and Associated Biodiversity Characteristics |
Q64085105 | The Rise of Apomixis in Natural Plant Populations |
Q115563551 | The evolution of apomixis in angiosperms: A reappraisal |
Q51147612 | Transient Activation of Apomixis in Sexual Neotriploids May Retain Genomically Altered States and Enhance Polyploid Establishment. |
Q125562453 | Uniparentality: advantages for range expansion in diploid and diploid-autopolyploid species |
Q115563996 | Variation of Residual Sexuality Rates along Reproductive Development in Apomictic Tetraploids of Paspalum |
Search more.