담관 막양구조는 유병률, 병인에 대해 명확히 정립되지 않은 매우 드문 질환이다. 원인은 선천적으로 발생하기도 하며 담관결석과 동반하여 만성 염증에 의해 후천적으로 발생하기도 한다. 특징적인 임상 증상이 없는 경우가 많으나 일부 환자에서 폐쇄성 담관염의 증상을 유발할 수 있다. 진단 또한 어려웠으나 최근 여러 담도계 검사법의 발달로 조기 발견 빈도가 높아지게 되었다. 저자들은 증상이 없이 우연히 담관 결석이 발견된 65세 남자 환자에서 역행성 담췌관조영술로 총담관 막양구조를 진단하고 풍선 확장술로 치료한 예를 경험하였기에 문헌고찰과 함께 보고하는 바이다.
췌아세포종은 주로 유년기에 발생하지만, 성인에서도 발생하는 아주 드문 췌장의 종양이다. 성인에서 발생하는 경우예후가 나쁘지만, 조기 진단 및 수술적 절제가 장기 생존율을 향상시킬 수 있다. 영상학적 검사에서는 고형 유두상 상피성 종양, 관샘암종, 세엽세포암 등을 감별진단에 포함시켜 야 한다. 수술적 완전 절제가 원칙이며, 수술후 보조 항암치료 및 항암방사선치료의 경우 아직 연구가 부족한 실정이다. 저자들은 소화불량으로 내원하여 영상학적 검사에서 우연히 발견된 췌장 종괴로 고형 유두상 상피성 종양을 의심 하에 수술을 계획하였고, 수술후 조직학적으로 췌아세포종을 진단하여 보고하고자 한다.
Hybrid sterility is one of the major barrier to the application of wide crosses in plant breeding and is commonly encountered in crosses between indica and japonica rice varieties. Ten mapping populations comprised of two reciprocal F2 and eight BC1F1 populations generated from the cross between Ilpumbyeo (japonica) and Dasanbyeo (indica) were used to identify QTLs and to interpret the gametophytic factors involved in hybrid fertility or sterility between two subspecies. Frame maps were constructed using a total of 107 and 144 STS markers covering 12 rice chromosomes in two reciprocal F2 and eight BC1F1 populations, respectively. A total of 15 main-effect QTLs and 17 significant digenic- epistatic interactions controlling spikelet fertility (SF) were resolved in the the entire genome map of F2 BC1F1 populations . Among detected QTLs responsible for hybrid ferility, four QTLs, qSF5.1 and and qS F5.2 on chromosome 5, qSF6.2 on chromosome 6, and qSF12.2 on chromosome 12 were identified as major QTLs since they were located at corresponding position in at least three mapping populations. Loci qSF5.1, qSF6.1 and qSF6.2 were responsible for both female and male sterility, whereas qSF3.1, qSF7 and qSF 12.2 affected the spikelet fertility only through embryosac factors, and qSF9.1 did through pollen factors. Five new QTLs identified in this study will be helpful for understanding the hybrid sterility and for breeding programs via inter-subspecific hybridization.
Hybrid sterility is one of the major barrier to the application of wide crosses in plant breeding and is commonly encountered in crosses between indica and japonica rice varieties. Ten mapping populations comprised of two reciprocal F2 and eight BC1F1 populations generated from the cross between Ilpumbyeo (japonica) and Dasanbyeo (indica) were used to identify QTLs and to interpret the gametophytic factors involved in hybrid fertility or sterility between two subspecies. Frame maps were constructed using a total of 107 and 144 STS markers covering 12 rice chromosomes in two reciprocal F2 and eight BC1F1 populations, respectively. A total of 15 main-effect QTLs and 17 significant digenic- epistatic interactions controlling spikelet fertility (SF) were resolved in the the entire genome map of F2 BC1F1 populations . Among detected QTLs responsible for hybrid ferility, four QTLs, qSF5.1 and and qS F5.2 on chromosome 5, qSF6.2 on chromosome 6, and qSF12.2 on chromosome 12 were identified as major QTLs since they were located at corresponding position in at least three mapping populations. Loci qSF5.1, qSF6.1 and qSF6.2 were responsible for both female and male sterility, whereas qSF3.1, qSF7 and qSF 12.2 affected the spikelet fertility only through embryosac factors, and qSF9.1 did through pollen factors. Five new QTLs identified in this study will be helpful for understanding the hybrid sterility and for breeding programs via inter-subspecific hybridization.