Figure S3. Amino acid sequences alignment of OsTKPR1 and AtTKPR1. Sequences were aligned using Clustal W. (DOCX 45 kb
Figure S4. Characterization of osabcg3 mutants in janponica Wuyungeng 7. a The site on OsABCG3 targe...
Complementation of osacos12 by OsACOS12 genomic. a, e SEM observation for the WT (a) and C-osacos12 ...
Figure S4. Multiple sequence alignment of C-termini in Arabidopsis and human MKKs. Top panel, partia...
Figure S2. Spatio-temporal expression of OsTKPR1 in rice grown in the field. Data were obtained from...
Table S3. Detailed cutin composition of the WT and ostkpr1â2 anthers. (DOCX 17 kb
Figure S4. Weight/Surface area ratio of WT and ostkpr1â2 anthers. The weight/surface area ratio of...
Figure S1. Phenotypic comparison between WT and ostkpr1 T-DNA insertion mutant. a Plants after bolti...
Multiple sequence alignment of CrRLK1Ls. Sequence alignments of identified rice pollen CrRLK1Ls gi|5...
Figure S1. Sequence alignment of amino acids of OsDWARF4 and PMM1/OsDWARF11. (a) Sequence alignment ...
Figure S6. SEM and TEM analysis of the pollen grain and anther surfaces at stage 12 in WT and osabcg...
Distributions of SNP index along chromosomes of oslap6 mutant. Figure S2. Sequence analysis of oslap...
Figure S5. Phylogenetic analysis of half-size ABCG proteins in rice and Arabidopsis. The half-size A...
Abstract Background During pollen wall formation in flowering plants, a conserved metabolon consisti...
Figure S3. ClustalW alignment of the rice and wheat PSTOL predicted proteins. Conserved amino acids ...
Figure S1. Female fertility of osabcg3–1 and osabcg3–2 mutants. The seed set of osnp1–1, osabcg3–1 a...
Figure S4. Characterization of osabcg3 mutants in janponica Wuyungeng 7. a The site on OsABCG3 targe...
Complementation of osacos12 by OsACOS12 genomic. a, e SEM observation for the WT (a) and C-osacos12 ...
Figure S4. Multiple sequence alignment of C-termini in Arabidopsis and human MKKs. Top panel, partia...
Figure S2. Spatio-temporal expression of OsTKPR1 in rice grown in the field. Data were obtained from...
Table S3. Detailed cutin composition of the WT and ostkpr1â2 anthers. (DOCX 17 kb
Figure S4. Weight/Surface area ratio of WT and ostkpr1â2 anthers. The weight/surface area ratio of...
Figure S1. Phenotypic comparison between WT and ostkpr1 T-DNA insertion mutant. a Plants after bolti...
Multiple sequence alignment of CrRLK1Ls. Sequence alignments of identified rice pollen CrRLK1Ls gi|5...
Figure S1. Sequence alignment of amino acids of OsDWARF4 and PMM1/OsDWARF11. (a) Sequence alignment ...
Figure S6. SEM and TEM analysis of the pollen grain and anther surfaces at stage 12 in WT and osabcg...
Distributions of SNP index along chromosomes of oslap6 mutant. Figure S2. Sequence analysis of oslap...
Figure S5. Phylogenetic analysis of half-size ABCG proteins in rice and Arabidopsis. The half-size A...
Abstract Background During pollen wall formation in flowering plants, a conserved metabolon consisti...
Figure S3. ClustalW alignment of the rice and wheat PSTOL predicted proteins. Conserved amino acids ...
Figure S1. Female fertility of osabcg3–1 and osabcg3–2 mutants. The seed set of osnp1–1, osabcg3–1 a...
Figure S4. Characterization of osabcg3 mutants in janponica Wuyungeng 7. a The site on OsABCG3 targe...
Complementation of osacos12 by OsACOS12 genomic. a, e SEM observation for the WT (a) and C-osacos12 ...
Figure S4. Multiple sequence alignment of C-termini in Arabidopsis and human MKKs. Top panel, partia...
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