allelomorph
简明释义
n. 对偶值;对偶基因(等于 allele)
英英释义
A term used in biology to refer to a morph or form that is a variant of another, often in the context of morphological or developmental changes. | 一个用于生物学的术语,指的是另一种变体的形态或形式,通常在形态或发育变化的背景下使用。 |
单词用法
等位allelomorph | |
显性allelomorph | |
隐性allelomorph | |
一对allelomorph | |
allelomorph相互作用 | |
allelomorph表达 |
同义词
反义词
例句
1.The distribution frequency of allelomorph was performed compared analysis.
对等位基因分布频率进行对比分析。
2.Chinese ancient marriage system had come through the historical changes form miscegenation, communal marriage, allelomorph marriage to plural marriage of patriarchy.
中国古代婚姻制度经历了杂婚制、群婚制、对偶婚制、父权制一夫多妻制的历史变迁。
3.Allele (allelomorph) One of the possible forms of a given gene.
等位基因:在同源染色体上占据相同座位的两个不同形式的基因。
4.The allelomorph frequencies were calculated with genotype frequencies.
由基因型频率计算等位基因频率。
5.Chinese ancient marriage system had come through the historical changes form miscegenation, communal marriage, allelomorph marriage to plural marriage of patriarchy.
中国古代婚姻制度经历了杂婚制、群婚制、对偶婚制、父权制一夫多妻制的历史变迁。
6.The gearing machine tool of the model Y3150E is modified and a new milling head is designed to cut the envelope tooth of the pinion using allelomorph method.
对Y3150E型滚齿机进行改造,设计出一新型的铣削头,利用对偶法加工小齿轮的圆弧包络线齿形;
7.When studying plant traits, researchers often look at the allelomorph variations that affect flower color.
在研究植物性状时,研究人员通常会查看影响花色的allelomorph 变异。
8.Each parent contributes an allelomorph to their offspring, determining specific characteristics.
每个父母为他们的后代贡献一个allelomorph,决定特定的特征。
9.The concept of allelomorph is crucial for understanding Mendelian inheritance patterns.
理解孟德尔遗传模式时,allelomorph 的概念至关重要。
10.In a dihybrid cross, there are multiple allelomorph combinations to consider.
在二基因杂交中,有多个allelomorph 组合需要考虑。
11.In genetics, an allelomorph refers to one of the different forms of a gene that can exist at a specific locus.
在遗传学中,allelomorph 指的是可以在特定基因座上存在的基因的不同形式之一。
作文
In the realm of genetics, the term allelomorph is often used to describe different forms of a gene that can exist at a specific locus on a chromosome. This concept is fundamental to our understanding of heredity and variation among organisms. An allelomorph can be thought of as one of the various versions of a gene that can dictate specific traits in an organism. For example, in pea plants, the gene for flower color has different allelomorphs: one may code for purple flowers while another may code for white flowers. These different forms arise due to mutations and are essential for the process of natural selection, as they provide the genetic diversity necessary for evolution. Understanding allelomorphs is crucial for fields such as agriculture and medicine, where manipulating these genes can lead to better crop yields or targeted therapies for genetic diseases. In agriculture, scientists might introduce a beneficial allelomorph into a crop species to enhance its resistance to pests or improve its nutritional value. Similarly, in medicine, identifying specific allelomorphs associated with diseases can lead to more effective treatments tailored to individual genetic profiles. The study of allelomorphs also intersects with the field of genetics in terms of inheritance patterns. When organisms reproduce, they pass on their allelomorphs to their offspring, which can result in various combinations of traits. This is often illustrated through Punnett squares in educational settings, where the potential genetic outcomes of a cross between two parent organisms are visually represented. The dominant and recessive nature of certain allelomorphs determines which traits will be expressed in the offspring, showcasing the intricate dance of genetics and heredity. Moreover, the concept of allelomorph extends beyond simple dominant and recessive traits. There are multiple alleles that can exist for a single gene, leading to a variety of possible phenotypes. For instance, in blood type determination, the ABO blood group system is governed by three allelomorphs (A, B, and O), resulting in four possible blood types (A, B, AB, and O). This complexity highlights the rich tapestry of genetic variation present in populations and emphasizes the importance of studying allelomorphs in understanding human health and disease. In conclusion, the term allelomorph represents a cornerstone of genetic theory, encapsulating the variations of genes that contribute to the diversity of life. As we continue to explore the genetic underpinnings of traits and diseases, the significance of allelomorphs will only grow. Whether in the context of agriculture, medicine, or evolutionary biology, the study of allelomorphs provides invaluable insights into the mechanisms of life itself, reminding us of the intricate connections between genetics and the world around us.
在遗传学领域,术语allelomorph通常用于描述可以在染色体的特定基因位点上存在的不同形式的基因。这个概念是我们理解遗传和生物体之间变异的基础。allelomorph可以被视为基因的各种版本之一,它可以决定生物体的特定特征。例如,在豌豆植物中,花色基因有不同的allelomorphs:一种可能编码紫色花朵,而另一种可能编码白色花朵。这些不同的形式由于突变而产生,并且对自然选择过程至关重要,因为它们提供了进化所需的遗传多样性。理解allelomorphs对农业和医学等领域至关重要,操纵这些基因可以导致更好的作物产量或针对遗传疾病的靶向治疗。在农业中,科学家可能会将有益的allelomorph引入作物物种,以增强其对害虫的抵抗力或改善其营养价值。同样,在医学中,识别与疾病相关的特定allelomorphs可以导致更有效的治疗,针对个体的遗传特征进行定制。allelomorphs的研究还与遗传学中的遗传模式交织在一起。当生物体繁殖时,它们将自己的allelomorphs传递给后代,这可能导致各种特征的组合。这通常通过教科书中的潘尼特方格进行说明,其中以视觉方式展示了两亲本生物体交叉的潜在遗传结果。某些allelomorphs的显性和隐性特性决定了后代中将表现出哪些特征,展示了遗传学和遗传之间复杂的舞蹈。此外,allelomorph的概念超出了简单的显性和隐性特征。一个基因可能存在多个等位基因,导致多种可能的表型。例如,在血型确定中,ABO血型系统由三个allelomorphs(A、B和O)控制,导致四种可能的血型(A、B、AB和O)。这种复杂性突显了种群中遗传变异的丰富图案,并强调了研究allelomorphs在理解人类健康和疾病中的重要性。总之,术语allelomorph代表了遗传理论的基石,概括了基因的变异,这些变异促进了生命的多样性。随着我们继续探索特征和疾病的遗传基础,allelomorphs的重要性只会增加。无论是在农业、医学还是进化生物学的背景下,allelomorphs的研究都提供了对生命机制的宝贵见解,使我们意识到遗传学与周围世界之间的复杂联系。
