Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype
U Tram, K Fredrick, JH Werren… - Journal of Cell …, 2006 - journals.biologists.com
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
[PDF][PDF] Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype
U Tram, K Fredrick, JH Werren, W Sullivan - Journal of Cell Science - Citeseer
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
Paternal chromosome segregation during the first mitotic division determinesWolbachia-induced cytoplasmic incompatibility phenotype
U Tram, K Fredrick, JH Werren, W Sullivan - Journal of Cell Science, 2006 - cir.nii.ac.jp
抄録< jats: p> The most common Wolbachia-induced phenotype in insects is cytoplasmic
incompatibility (CI), which occurs when sperm from infected males fertilize eggs from …
incompatibility (CI), which occurs when sperm from infected males fertilize eggs from …
Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype.
U Tram, K Fredrick, JH Werren, W Sullivan - Journal of Cell Science, 2006 - europepmc.org
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype
U Tram, K Fredrick, JH Werren… - Journal of cell …, 2006 - pubmed.ncbi.nlm.nih.gov
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
[PDF][PDF] Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype
U Tram, K Fredrick, JH Werren… - Journal of Cell … - sullivan.mcdb.ucsc.edu
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype.
U Tram, K Fredrick, JH Werren, W Sullivan - 2006 - cabidigitallibrary.org
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
[PDF][PDF] Paternal chromosome segregation during the first mitotic division determines Wolbachia-induced cytoplasmic incompatibility phenotype
U Tram, K Fredrick, JH Werren… - Journal of Cell … - sullivan.mcdb.ucsc.edu
The most common Wolbachia-induced phenotype in insects is cytoplasmic incompatibility
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …
(CI), which occurs when sperm from infected males fertilize eggs from uninfected females. CI …